Difference between revisions of "Rikesh Patel"

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(Conferences and Events)
Line 253: Line 253:
 
==Conferences and Events ==
 
==Conferences and Events ==
  
<bibtex>@unpublished{rikesh_patel_custom_2010,
+
<bibtex>@techreport{rikesh_patel_custom_2010,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Custom {{CMOS}} Modulated Light Camera for Use in Aerospace Industry},
 
   title = {Custom {{CMOS}} Modulated Light Camera for Use in Aerospace Industry},
Line 259: Line 259:
 
The CMOS camera works by using a sending a beam of modulated light to the target scene, and measuring the change in phase of the reflected light. Since time of flight is directly linked to the phase, it is possible to determine the range to the scene. By using an array of photo-detectors, it is possible to map the distance to several points in the scene quickly, and no scanning is required.},
 
The CMOS camera works by using a sending a beam of modulated light to the target scene, and measuring the change in phase of the reflected light. Since time of flight is directly linked to the phase, it is possible to determine the range to the scene. By using an array of photo-detectors, it is possible to map the distance to several points in the scene quickly, and no scanning is required.},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {University of {{Nottingham Institute}} of {{Aerospace Exposition}}},
+
  institution = {University of {{Nottingham Institute}} of {{Aerospace Exposition}}},
 
   date = {2010-11-26},
 
   date = {2010-11-26},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Samuel Achamfuo-Yeboah} and {Matt Clark}},
  editora = {{Samuel Achamfuo-Yeboah} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_widefield_2011,
+
</bibtex> <bibtex>@techreport{rikesh_patel_widefield_2011,
 
   venue = {{London (UK)}},
 
   venue = {{London (UK)}},
 
   title = {Widefield Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera},
 
   title = {Widefield Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera},
 
   abstract = {A method of detecting optical heterodyne interference fringes using a custom camera array has been developed. The custom CMOS modulated light camera (MLC) uses quadrature demodulation to output phase changes from detected modulated light as a DC voltage. The heterodyne interference fringe pattern is generated using an Acouto-optical frequency shifter in an arm of a Mach-Zehnder interferometer. Widefield images of fringe patterns acquired using the MLC are presented. Significance of using this method to acquire widefield images are discussed along with the advantages.},
 
   abstract = {A method of detecting optical heterodyne interference fringes using a custom camera array has been developed. The custom CMOS modulated light camera (MLC) uses quadrature demodulation to output phase changes from detected modulated light as a DC voltage. The heterodyne interference fringe pattern is generated using an Acouto-optical frequency shifter in an arm of a Mach-Zehnder interferometer. Widefield images of fringe patterns acquired using the MLC are presented. Significance of using this method to acquire widefield images are discussed along with the advantages.},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {3rd {{Intelligent Imaging Programme}}},
+
  institution = {3rd {{Intelligent Imaging Programme}}},
 
   date = {2011-03},
 
   date = {2011-03},
 
   author = {{Rikesh Patel}}
 
   author = {{Rikesh Patel}}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_widefield_2011-1,
+
</bibtex> <bibtex>@techreport{rikesh_patel_widefield_2011-1,
 
   venue = {{Toronto (Canada)}},
 
   venue = {{Toronto (Canada)}},
 
   title = {Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera},
 
   title = {Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera},
Line 282: Line 281:
 
   abstract = {A method of detecting optical heterodyne interference fringes using a custom CMOS modulated light camera array has been developed. Widefield phase images are generated using quadrature demodulation and are kept stable using a feedback system.},
 
   abstract = {A method of detecting optical heterodyne interference fringes using a custom CMOS modulated light camera array has been developed. Widefield phase images are generated using quadrature demodulation and are kept stable using a feedback system.},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {{{OSA Imaging}} and {{Applied Optics}} 2011},
+
  institution = {{{OSA Imaging}} and {{Applied Optics}} 2011},
 
   date = {2011-07-14},
 
   date = {2011-07-14},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Matt Clark} and {Samuel Achamfuo-Yeboah}},
  editora = {{Matt Clark} and {Samuel Achamfuo-Yeboah}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_widefield_2012,
+
</bibtex> <bibtex>@techreport{rikesh_patel_widefield_2012,
 
   venue = {{Durham (UK)}},
 
   venue = {{Durham (UK)}},
 
   title = {Widefield Two-Laser Interferometer System Using a Modulated Light Camera},
 
   title = {Widefield Two-Laser Interferometer System Using a Modulated Light Camera},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Photon12}}},
+
  institution = {{{IOP Photon12}}},
 
   date = {2012-07},
 
   date = {2012-07},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Samual Achamfuo-Yeboah} and {Roger Light} and {Matt Clark}},
  editora = {{Samual Achamfuo-Yeboah} and {Roger Light} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_ultrasonic_2015,
+
</bibtex> <bibtex>@techreport{rikesh_patel_ultrasonic_2015,
 
   venue = {{Frejus (France)}},
 
   venue = {{Frejus (France)}},
 
   title = {Ultrasonic {{Inspection}} of {{Additive Manufactured Components}}},
 
   title = {Ultrasonic {{Inspection}} of {{Additive Manufactured Components}}},
Line 312: Line 309:
 
Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of AM constructs. Images are taken of samples made using different 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, potentially, the presented inspection system could be performed in an online capacity as the components are printed, to verify mechanical properties and provide information to feed back into the build process.},
 
Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of AM constructs. Images are taken of samples made using different 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, potentially, the presented inspection system could be performed in an online capacity as the components are printed, to verify mechanical properties and provide information to feed back into the build process.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {14th {{Anglo}}-{{French Physical Acoustics Conference}} ({{AFPAC2015}})},
+
  institution = {14th {{Anglo}}-{{French Physical Acoustics Conference}} ({{AFPAC2015}})},
 
   date = {2015-01-15},
 
   date = {2015-01-15},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Samuel Achamfuo-Yeboah} and {Roger Light} and {Adam Clare} and {Christopher Tuck} and {Matt Clark} and {Steve Sharples}},
  editora = {{Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Samuel Achamfuo-Yeboah} and {Roger Light} and {Adam Clare} and {Christopher Tuck} and {Matt Clark} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{richard_smith_sras_2015,
+
</bibtex> <bibtex>@techreport{richard_smith_sras_2015,
 
   venue = {{Porton Down (UK)}},
 
   venue = {{Porton Down (UK)}},
 
   title = {{{SRAS UT Grain Measurement}}},
 
   title = {{{SRAS UT Grain Measurement}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {The {{Technical Cooperation Programme}} ({{TTCP}})},
+
  institution = {The {{Technical Cooperation Programme}} ({{TTCP}})},
 
   year = {05/Mar/2015},
 
   year = {05/Mar/2015},
   author = {{Richard Smith}},
+
   author = {{Richard Smith}} and {{Rikesh Patel} and {Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Samuel Achamfuo-Yeboah} and {Roger Light} and {Adam Clare} and {Christopher Tuck} and {Matt Clark} and {Steve Sharples}},
  editora = {{Rikesh Patel} and {Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Samuel Achamfuo-Yeboah} and {Roger Light} and {Adam Clare} and {Christopher Tuck} and {Matt Clark} and {Steve Sharples}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Invited}
 
   note = {Invited}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{adam_clare_ndt_2015,
+
</bibtex> <bibtex>@techreport{adam_clare_ndt_2015,
 
   venue = {{Rotherham (UK)}},
 
   venue = {{Rotherham (UK)}},
 
   title = {{{NDT}} for {{AM}} – {{Research}} Efforts at the {{University}} of {{Nottingham}}},
 
   title = {{{NDT}} for {{AM}} – {{Research}} Efforts at the {{University}} of {{Nottingham}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{BINDT Aerospace Event}}  2015},
+
  institution = {{{BINDT Aerospace Event}}  2015},
 
   date = {2015-04},
 
   date = {2015-04},
   author = {{Adam Clare}},
+
   author = {{Adam Clare}} and {{Steve Sharples} and {Chris Tuck} and {Kristian Groom} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li} and {Richard Smith} and {Guangying Guan}},
  editora = {{Steve Sharples} and {Chris Tuck} and {Kristian Groom} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li} and {Richard Smith} and {Guangying Guan}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_using_2015,
+
</bibtex> <bibtex>@techreport{rikesh_patel_using_2015,
 
   venue = {{Evanston IL (USA)}},
 
   venue = {{Evanston IL (USA)}},
 
   title = {On Using Ultrasonic Non-Destructive Evaluation for Additive Manufactured Samples},
 
   title = {On Using Ultrasonic Non-Destructive Evaluation for Additive Manufactured Samples},
Line 351: Line 345:
 
SRAS (spatially resolved acoustic spectroscopy) is a method of characterising material though laser generated surface acoustic waves. The grain structures of AM metal parts can be imaged using this system, which would include information on the size and orientation of the grain; this can ultimately be used to ascertain the material stiffness. In addition, this technique can be used to detect the print porosity (e.g. gaps or errors). Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of the AM material from the speckle reflection. Images are taken of samples made using 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, the presented system illustrates a concept that could, in the future, be able to make measurements in an online capacity.},
 
SRAS (spatially resolved acoustic spectroscopy) is a method of characterising material though laser generated surface acoustic waves. The grain structures of AM metal parts can be imaged using this system, which would include information on the size and orientation of the grain; this can ultimately be used to ascertain the material stiffness. In addition, this technique can be used to detect the print porosity (e.g. gaps or errors). Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of the AM material from the speckle reflection. Images are taken of samples made using 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, the presented system illustrates a concept that could, in the future, be able to make measurements in an online capacity.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {4th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2015}})},
+
  institution = {4th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2015}})},
 
   date = {0015-06-28},
 
   date = {0015-06-28},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Samuel Achamfuo-Yeboah} and {Chris Tuck} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
  editora = {{Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Samuel Achamfuo-Yeboah} and {Chris Tuck} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{jethro_coulson_non-destructive_2015,
+
</bibtex> <bibtex>@techreport{jethro_coulson_non-destructive_2015,
 
   venue = {{Minneapolis MN (USA)}},
 
   venue = {{Minneapolis MN (USA)}},
 
   title = {Non-{{Destructive Evaluation}} for {{Additive Manufacturing}}},
 
   title = {Non-{{Destructive Evaluation}} for {{Additive Manufacturing}}},
Line 368: Line 361:
 
Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of AM constructs. Images are taken of samples made using different 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, potentially, the presented inspection system could be performed in an online capacity as the components are printed, to verify mechanical properties and provide information to feed back into the build process.},
 
Difficulties arise in performing laser ultrasound detection on optically rough samples; this paper presents work to date on capturing SRAS images of AM constructs. Images are taken of samples made using different 3D metal printing technologies including selective laser melting (SLM) and wire and arc additive manufacturing (WAAM). Whilst this is currently conducted offline, potentially, the presented inspection system could be performed in an online capacity as the components are printed, to verify mechanical properties and provide information to feed back into the build process.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {42nd {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{42QNDE}})},
+
  institution = {42nd {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{42QNDE}})},
 
   date = {2015-07-26},
 
   date = {2015-07-26},
   author = {{Jethro Coulson}},
+
   author = {{Jethro Coulson}} and {{Rikesh Patel} and {Steve Sharples} and {Adam Clare} and {Wenqi Li} and {Richard Smith} and {Matthias Hirsch} and {Chris Tuck} and {Matt Clark}},
  editora = {{Rikesh Patel} and {Steve Sharples} and {Adam Clare} and {Wenqi Li} and {Richard Smith} and {Matthias Hirsch} and {Chris Tuck} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{steve_sharples_rcnde_2015,
+
</bibtex> <bibtex>@techreport{steve_sharples_rcnde_2015,
 
   venue = {{Manchester (UK)}},
 
   venue = {{Manchester (UK)}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Research Review Meeting}}},
+
  institution = {{{RCNDE Research Review Meeting}}},
 
   date = {2015-04-22},
 
   date = {2015-04-22},
   author = {{Steve Sharples}},
+
   author = {{Steve Sharples}} and {{Adam Clare} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Rikesh Patel} and {Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Preetha Malla}},
  editora = {{Adam Clare} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Rikesh Patel} and {Guangying Guan} and {Matthias Hirsch} and {Wenqi Li} and {Preetha Malla}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_laser_2016,
+
</bibtex> <bibtex>@techreport{rikesh_patel_laser_2016,
 
   venue = {{Linz (Austria)}},
 
   venue = {{Linz (Austria)}},
 
   title = {Laser Ultrasonic Inspection of  As-Deposited {{AM}} Samples},
 
   title = {Laser Ultrasonic Inspection of  As-Deposited {{AM}} Samples},
Line 394: Line 385:
 
In this paper, we present our solution of measuring the surface acoustic wave generated on an as-deposited AM part. The SAW is measured using the speckle reflection off the optically rough surface, captured using a speckle knife edge detector (SKED)(figure 1). The mapped SAW velocities measured off the AM part in a 2D scan will be presented – the link between print parameters and print quality will be illustrated. Mapping the characteristics of an as-deposited part in a timely and non invasive manner is a critical improvement to the AM technology.},
 
In this paper, we present our solution of measuring the surface acoustic wave generated on an as-deposited AM part. The SAW is measured using the speckle reflection off the optically rough surface, captured using a speckle knife edge detector (SKED)(figure 1). The mapped SAW velocities measured off the AM part in a 2D scan will be presented – the link between print parameters and print quality will be illustrated. Mapping the characteristics of an as-deposited part in a timely and non invasive manner is a critical improvement to the AM technology.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}})},
+
  institution = {5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}})},
 
   year = {02/July/2016},
 
   year = {02/July/2016},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
  editora = {{Matthias Hirsch} and {Wenqi Li} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{victoria_ageeva_control_2016,
+
</bibtex> <bibtex>@techreport{victoria_ageeva_control_2016,
 
   venue = {{Linz (Austria)}},
 
   venue = {{Linz (Austria)}},
 
   title = {Control of the {{Rayleigh}} Wave Propagation with a Resonant Metawedge: A Practical Concept Demonstration of Seismic Metamaterials},
 
   title = {Control of the {{Rayleigh}} Wave Propagation with a Resonant Metawedge: A Practical Concept Demonstration of Seismic Metamaterials},
Line 409: Line 399:
 
In this paper, we present our solution of measuring the surface acoustic wave generated on an as-deposited AM part. The SAW is measured using the speckle reflection off the optically rough surface, captured using a speckle knife edge detector (SKED)(figure 1). The mapped SAW velocities measured off the AM part in a 2D scan will be presented – the link between print parameters and print quality will be illustrated. Mapping the characteristics of an as-deposited part in a timely and non invasive manner is a critical improvement to the AM technology.},
 
In this paper, we present our solution of measuring the surface acoustic wave generated on an as-deposited AM part. The SAW is measured using the speckle reflection off the optically rough surface, captured using a speckle knife edge detector (SKED)(figure 1). The mapped SAW velocities measured off the AM part in a 2D scan will be presented – the link between print parameters and print quality will be illustrated. Mapping the characteristics of an as-deposited part in a timely and non invasive manner is a critical improvement to the AM technology.},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}})},
+
  institution = {5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}})},
 
   year = {02/July/2016},
 
   year = {02/July/2016},
   author = {{Victoria Ageeva}},
+
   author = {{Victoria Ageeva}} and {{Andrea Colombi} and {Adam Clare} and {Richard V. Craster} and {Rikesh Patel} and {Richard Smith} and {Matt Clark}},
  editora = {{Andrea Colombi} and {Adam Clare} and {Richard V. Craster} and {Rikesh Patel} and {Richard Smith} and {Matt Clark}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Student prize winner (1st)}
 
   note = {Student prize winner (1st)}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_rcnde_2016,
+
</bibtex> <bibtex>@techreport{rikesh_patel_rcnde_2016,
 
   venue = {{Manchester (UK)}},
 
   venue = {{Manchester (UK)}},
 
   title = {{{RCNDE}}: {{Laser}} Ultrasonic Inspection of  as-Deposited {{AM}} Samples},
 
   title = {{{RCNDE}}: {{Laser}} Ultrasonic Inspection of  as-Deposited {{AM}} Samples},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Early Stage Researchers Event}} 2016},
+
  institution = {{{RCNDE Early Stage Researchers Event}} 2016},
 
   date = {2016-07},
 
   date = {2016-07},
 
   author = {{Rikesh Patel}}
 
   author = {{Rikesh Patel}}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{a._clare_-process_2016,
+
</bibtex> <bibtex>@techreport{a._clare_-process_2016,
 
   venue = {{Guimaraes (Portugal)}},
 
   venue = {{Guimaraes (Portugal)}},
 
   title = {In-{{Process Monitoring}} of {{Additive Layer Manufacturing}}},
 
   title = {In-{{Process Monitoring}} of {{Additive Layer Manufacturing}}},
Line 433: Line 422:
 
This presentation will provide an insight into ongoing work which makes use of two techniques; optical coherence tomography (OCT) and Spatially Resolved Acoustic Spectroscopy (SRAS) for polymer and metal ALM methods respectively. Both of these techniques are of significant interest to machine builders since they are able to evaluate both surface and subsurface integrity. Through the use of OCT it is possible to discriminate between the density of subsurface regions within the near surface 500µm of Nylon 12 SLS specimen. In addition the use of SRAS is shown to detect surface pores alongside correlating crack densities with laser scan strategies. The use of these tools also presents new opportunities for inspection and discussion will also focus on how they will be used in the industrial setting.},
 
This presentation will provide an insight into ongoing work which makes use of two techniques; optical coherence tomography (OCT) and Spatially Resolved Acoustic Spectroscopy (SRAS) for polymer and metal ALM methods respectively. Both of these techniques are of significant interest to machine builders since they are able to evaluate both surface and subsurface integrity. Through the use of OCT it is possible to discriminate between the density of subsurface regions within the near surface 500µm of Nylon 12 SLS specimen. In addition the use of SRAS is shown to detect surface pores alongside correlating crack densities with laser scan strategies. The use of these tools also presents new opportunities for inspection and discussion will also focus on how they will be used in the industrial setting.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{CIRP}} 66th {{General Assembly}} ({{CIRP}} 2016)},
+
  institution = {{{CIRP}} 66th {{General Assembly}} ({{CIRP}} 2016)},
 
   date = {2016-08-21},
 
   date = {2016-08-21},
   author = {{A. Clare}},
+
   author = {{A. Clare}} and {{S. Sharples} and {R. Leach} and {G. Guan} and {M. Hirsch} and {R. Patel}},
  editora = {{S. Sharples} and {R. Leach} and {G. Guan} and {M. Hirsch} and {R. Patel}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_rcnde_2016-1,
+
</bibtex> <bibtex>@techreport{rikesh_patel_rcnde_2016-1,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {{{RCNDE}}: {{Inspection}} of Additive Manufacture Parts Using {{SRAS}}},
 
   title = {{{RCNDE}}: {{Inspection}} of Additive Manufacture Parts Using {{SRAS}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Industrial Working Group Visit}} 2016},
+
  institution = {{{RCNDE Industrial Working Group Visit}} 2016},
 
   date = {2016-09-14},
 
   date = {2016-09-14},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Wenqi Li} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
  editora = {{Wenqi Li} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_using_2016,
+
</bibtex> <bibtex>@techreport{rikesh_patel_using_2016,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Using Spatially Resolved Acoustic Spectroscopy ({{SRAS}}) on {{AM}} Produced Parts},
 
   title = {Using Spatially Resolved Acoustic Spectroscopy ({{SRAS}}) on {{AM}} Produced Parts},
 
   url = {http://optics.eee.nottingham.ac.uk/w/images/7/76/Optics%2Bultrasound_abstracts.pdf},
 
   url = {http://optics.eee.nottingham.ac.uk/w/images/7/76/Optics%2Bultrasound_abstracts.pdf},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Optics}}+{{Ultrasound III}}},
+
  institution = {{{IOP Optics}}+{{Ultrasound III}}},
 
   year = {09/Nov/2016},
 
   year = {09/Nov/2016},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Wenqi Li} and {Paul Marrow} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples} and {Matt Clark}},
  editora = {{Wenqi Li} and {Paul Marrow} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{adam_t._clare_approaches_2017,
+
</bibtex> <bibtex>@techreport{adam_t._clare_approaches_2017,
 
   venue = {{Hanover (Germany)}},
 
   venue = {{Hanover (Germany)}},
 
   title = {Approaches for {{AM}} In-Process Inspection Using {{SRAS}} and {{OCT}}},
 
   title = {Approaches for {{AM}} In-Process Inspection Using {{SRAS}} and {{OCT}}},
 
   url = {https://www.euspen.eu/events/17th-international-conference-exhibition/},
 
   url = {https://www.euspen.eu/events/17th-international-conference-exhibition/},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{EUSPEN}} 17th {{International Conference}} \& {{Exhibition}}},
+
  institution = {{{EUSPEN}} 17th {{International Conference}} \& {{Exhibition}}},
 
   date = {2017-01-23},
 
   date = {2017-01-23},
   author = {{Adam T. Clare}},
+
   author = {{Adam T. Clare}} and {{Matthias Hirsch} and {Guanying Guan} and {Rikesh Patel} and {Wenqi Li} and {Paul Dryburgh} and {Don Pieris} and {Steve Sharples}},
  editora = {{Matthias Hirsch} and {Guanying Guan} and {Rikesh Patel} and {Wenqi Li} and {Paul Dryburgh} and {Don Pieris} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_rcnde_2017,
+
</bibtex> <bibtex>@techreport{rikesh_patel_rcnde_2017,
 
   venue = {{Warwick (UK)}},
 
   venue = {{Warwick (UK)}},
 
   title = {{{RCNDE}}: {{Additive Manufacturing}} and the Role of {{NDE}}},
 
   title = {{{RCNDE}}: {{Additive Manufacturing}} and the Role of {{NDE}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Technology Transfer Event}} 2017},
+
  institution = {{{RCNDE Technology Transfer Event}} 2017},
 
   date = {2017-01-30},
 
   date = {2017-01-30},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Wenqi Li} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
  editora = {{Wenqi Li} and {Matthias Hirsch} and {Richard Smith} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_rcnde_2017-1,
+
</bibtex> <bibtex>@techreport{rikesh_patel_rcnde_2017-1,
 
   venue = {{Warwick (UK)}},
 
   venue = {{Warwick (UK)}},
 
   title = {{{RCNDE}}: {{SRAS}} Live Demonstration},
 
   title = {{{RCNDE}}: {{SRAS}} Live Demonstration},
 
   type = {Demonstration},
 
   type = {Demonstration},
  eventtitle = {{{RCNDE Technology Transfer Event}} 2017},
+
  institution = {{{RCNDE Technology Transfer Event}} 2017},
 
   date = {2017-01-30},
 
   date = {2017-01-30},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Wenqi Li} and {Matthias Hirsch}},
  editora = {{Wenqi Li} and {Matthias Hirsch}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{steve_sharples_rcnde_2017,
+
</bibtex> <bibtex>@techreport{steve_sharples_rcnde_2017,
 
   venue = {{Bristol (UK)}},
 
   venue = {{Bristol (UK)}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Research Review Meeting}}},
+
  institution = {{{RCNDE Research Review Meeting}}},
 
   year = {10/May/2017},
 
   year = {10/May/2017},
   author = {{Steve Sharples}},
+
   author = {{Steve Sharples}} and {{Adam Clare} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
  editora = {{Adam Clare} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{adam_clare_rcnde_2016,
+
</bibtex> <bibtex>@techreport{adam_clare_rcnde_2016,
 
   venue = {{Glasgow (UK)}},
 
   venue = {{Glasgow (UK)}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Research Review Meeting}}},
+
  institution = {{{RCNDE Research Review Meeting}}},
 
   date = {2016-04-27},
 
   date = {2016-04-27},
   author = {{Adam Clare}},
+
   author = {{Adam Clare}} and {{Steve Sharples} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li}},
  editora = {{Steve Sharples} and {Matt Clark} and {Chris Tuck} and {Richard Smith} and {Matthias Hirsch} and {Rikesh Patel} and {Wenqi Li}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_sked---box_2017,
+
</bibtex> <bibtex>@techreport{rikesh_patel_sked---box_2017,
 
   venue = {{Telford (UK)}},
 
   venue = {{Telford (UK)}},
 
   title = {{{SKED}}-{{In}}-a-Box},
 
   title = {{{SKED}}-{{In}}-a-Box},
 
   url = {http://www.bindt.org/events/Materials-Testing-2017/},
 
   url = {http://www.bindt.org/events/Materials-Testing-2017/},
 
   type = {Demonstration},
 
   type = {Demonstration},
  eventtitle = {{{BINDT MT2017}}},
+
  institution = {{{BINDT MT2017}}},
 
   year = {05/Sept/2017},
 
   year = {05/Sept/2017},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Don Pieris} and {Paul Dryburgh} and {Matthias Hirsch} and {Matt Clark}},
  editora = {{Don Pieris} and {Paul Dryburgh} and {Matthias Hirsch} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{don_milesh_pieris_non-destructive_2017,
+
</bibtex> <bibtex>@techreport{don_milesh_pieris_non-destructive_2017,
 
   venue = {{Derby (UK)}},
 
   venue = {{Derby (UK)}},
 
   title = {Non-{{Destructive Evaluation}} of {{Additive Layer Manufactured Component Microstructure}}},
 
   title = {Non-{{Destructive Evaluation}} of {{Additive Layer Manufactured Component Microstructure}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {Rolls {{Royce EngD Conference}} 2017},
+
  institution = {Rolls {{Royce EngD Conference}} 2017},
 
   year = {01/Nov/2017},
 
   year = {01/Nov/2017},
   author = {{Don Milesh Pieris}},
+
   author = {{Don Milesh Pieris}} and {{Sam Catchpole-Smith} and {Matt Clark} and {Adam Clare} and {Steve Sharples} and {Rikesh Patel} and {Wenqi Li} and {Richard Smith}},
  editora = {{Sam Catchpole-Smith} and {Matt Clark} and {Adam Clare} and {Steve Sharples} and {Rikesh Patel} and {Wenqi Li} and {Richard Smith}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_sked---box_2017-1,
+
</bibtex> <bibtex>@techreport{rikesh_patel_sked---box_2017-1,
 
   venue = {{Derby (UK)}},
 
   venue = {{Derby (UK)}},
 
   title = {{{SKED}}-{{In}}-a-Box},
 
   title = {{{SKED}}-{{In}}-a-Box},
 
   type = {Demonstration},
 
   type = {Demonstration},
  eventtitle = {Rolls {{Royce EngD Conference}} 2017},
+
  institution = {Rolls {{Royce EngD Conference}} 2017},
 
   year = {01/Nov/2017},
 
   year = {01/Nov/2017},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Don Pieris} and {Paul Dryburgh} and {Matt Clark}},
  editora = {{Don Pieris} and {Paul Dryburgh} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_sked---box_2017-2,
+
</bibtex> <bibtex>@techreport{rikesh_patel_sked---box_2017-2,
 
   venue = {{Glasgow (UK)}},
 
   venue = {{Glasgow (UK)}},
 
   title = {{{SKED}}-in-a-Box: A Simple and Inexpensive Laser Ultrasound Rough Surface Detector System},
 
   title = {{{SKED}}-in-a-Box: A Simple and Inexpensive Laser Ultrasound Rough Surface Detector System},
Line 560: Line 538:
 
This presentation will explore the detector known as the speckle knife edge detector (SKED), which can potentially overcome all these drawbacks. The detector is able to measure an incident speckle field shift, i.e. measure ultrasound signals off rough surfaces. There are some key benefits in using the SKED, including the cost, speed and small form factor. A demonstration of a SKED experiment is planned.},
 
This presentation will explore the detector known as the speckle knife edge detector (SKED), which can potentially overcome all these drawbacks. The detector is able to measure an incident speckle field shift, i.e. measure ultrasound signals off rough surfaces. There are some key benefits in using the SKED, including the cost, speed and small form factor. A demonstration of a SKED experiment is planned.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Optics}}+{{Ultrasound IV}}},
+
  institution = {{{IOP Optics}}+{{Ultrasound IV}}},
 
   year = {23/Nov/2017},
 
   year = {23/Nov/2017},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Samuel Achamfuo-Yeboah} and {Don Milesh Pieris} and {Roger Light} and {Steve Sharples} and {Matt Clark}},
  editora = {{Samuel Achamfuo-Yeboah} and {Don Milesh Pieris} and {Roger Light} and {Steve Sharples} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{don_milesh_pieris_detection_2017,
+
</bibtex> <bibtex>@techreport{don_milesh_pieris_detection_2017,
 
   venue = {{Glasgow (UK)}},
 
   venue = {{Glasgow (UK)}},
 
   title = {Detection of the Manipulation of Additively Manufactured Component Microstructure Using Spatially Resolved Acoustic Spectroscopy},
 
   title = {Detection of the Manipulation of Additively Manufactured Component Microstructure Using Spatially Resolved Acoustic Spectroscopy},
Line 574: Line 551:
 
Spatially Resolved Acoustic Spectroscopy (SRAS) has been used to image the microstructure of large-grained materials such as titanium. This talk explores the uses of SRAS to detect changes in an AM components texture in the XY plane. This is followed by an outline of experiments which aim to detect the influence of different scan strategies and demonstrate control over the microstructure along the build direction of a component.},
 
Spatially Resolved Acoustic Spectroscopy (SRAS) has been used to image the microstructure of large-grained materials such as titanium. This talk explores the uses of SRAS to detect changes in an AM components texture in the XY plane. This is followed by an outline of experiments which aim to detect the influence of different scan strategies and demonstrate control over the microstructure along the build direction of a component.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Optics}}+{{Ultrasound IV}}},
+
  institution = {{{IOP Optics}}+{{Ultrasound IV}}},
 
   year = {23/Nov/2017},
 
   year = {23/Nov/2017},
   author = {{Don Milesh Pieris}},
+
   author = {{Don Milesh Pieris}} and {{Rikesh Patel} and {Matthias Hirsch} and {Paul Dryburgh} and {Sam Catchpole-Smith} and {Steve Sharples} and {Wenqi Li} and {Richard Smith} and {Adam Clare} and {Matt Clark}},
  editora = {{Rikesh Patel} and {Matthias Hirsch} and {Paul Dryburgh} and {Sam Catchpole-Smith} and {Steve Sharples} and {Wenqi Li} and {Richard Smith} and {Adam Clare} and {Matt Clark}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Winner student prize}
 
   note = {Winner student prize}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{paul_dryburgh_detecting_2017,
+
</bibtex> <bibtex>@techreport{paul_dryburgh_detecting_2017,
 
   venue = {{Glasgow (UK)}},
 
   venue = {{Glasgow (UK)}},
 
   title = {Detecting and Characterising Subsurface Porosity in {{Selective Laser Melting}} ({{SLM}}) Components Using Laser Ultrasound},
 
   title = {Detecting and Characterising Subsurface Porosity in {{Selective Laser Melting}} ({{SLM}}) Components Using Laser Ultrasound},
Line 588: Line 564:
 
   abstract = {Selective Laser Melting (SLM) is a form of additive manufacturing used to build complex geometrical shapes in a layer-by-layer process from a powder feedstock. SLM manufactured components have promising uses for high value industries such as medical, aerospace and tooling, however the process is inherently prone to defects and combined with a lack of robust suitable inspection techniques, uptake in safety critical applications has been limited. By inspecting in-situ on a layer-by-layer basis a 3D model of the component integrity could be developed, this theme is extended to present an overview of the opportunities offered by in-situ inspection along with the requirements of a suitable technique, including the ability to interrogate the subsurface. The ability to detect subsurface porosity using the Spatially Resolved Acoustic Spectroscopy (SRAS) laser ultrasound technique, and further quantify this data using dispersive Lamb waves shall be explored.},
 
   abstract = {Selective Laser Melting (SLM) is a form of additive manufacturing used to build complex geometrical shapes in a layer-by-layer process from a powder feedstock. SLM manufactured components have promising uses for high value industries such as medical, aerospace and tooling, however the process is inherently prone to defects and combined with a lack of robust suitable inspection techniques, uptake in safety critical applications has been limited. By inspecting in-situ on a layer-by-layer basis a 3D model of the component integrity could be developed, this theme is extended to present an overview of the opportunities offered by in-situ inspection along with the requirements of a suitable technique, including the ability to interrogate the subsurface. The ability to detect subsurface porosity using the Spatially Resolved Acoustic Spectroscopy (SRAS) laser ultrasound technique, and further quantify this data using dispersive Lamb waves shall be explored.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Optics}}+{{Ultrasound IV}}},
+
  institution = {{{IOP Optics}}+{{Ultrasound IV}}},
 
   year = {23/Nov/2017},
 
   year = {23/Nov/2017},
   author = {{Paul Dryburgh}},
+
   author = {{Paul Dryburgh}} and {{Rikesh Patel} and {Matthias Hirsch} and {Don Milesh Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare}},
  editora = {{Rikesh Patel} and {Matthias Hirsch} and {Don Milesh Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{wenqi_li_orientation_2017,
+
</bibtex> <bibtex>@techreport{wenqi_li_orientation_2017,
 
   venue = {{Glasgow (UK)}},
 
   venue = {{Glasgow (UK)}},
 
   title = {Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy},
 
   title = {Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy},
Line 601: Line 576:
 
   abstract = {Solar panel is a key component for renewable energy industry; the polysilicon, also called multicrystalline silicon, is widely used to produce solar cell wafers. However, as the structure and orientation strongly linked to conversion effiencies, polysilicon are often less efficient than equivalent mono crystalline or thin film cells. The capability of a non-destructive laser ultrasonic inspection technique spatially resolved acoustic spectroscopy (SRAS) is presented for characterising silicon cell wafer's microstructure and grains orientation; scanning times, sample surface preparation and system upgrades for silicon measurement are also discussed. This technique could be used to optimise the polysilicon wafer production process and potentially improve effciency.},
 
   abstract = {Solar panel is a key component for renewable energy industry; the polysilicon, also called multicrystalline silicon, is widely used to produce solar cell wafers. However, as the structure and orientation strongly linked to conversion effiencies, polysilicon are often less efficient than equivalent mono crystalline or thin film cells. The capability of a non-destructive laser ultrasonic inspection technique spatially resolved acoustic spectroscopy (SRAS) is presented for characterising silicon cell wafer's microstructure and grains orientation; scanning times, sample surface preparation and system upgrades for silicon measurement are also discussed. This technique could be used to optimise the polysilicon wafer production process and potentially improve effciency.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{IOP Optics}}+{{Ultrasound IV}}},
+
  institution = {{{IOP Optics}}+{{Ultrasound IV}}},
 
   year = {23/Nov/2017},
 
   year = {23/Nov/2017},
   author = {{Wenqi Li}},
+
   author = {{Wenqi Li}} and {{R. Patel} and {R. J. Smith} and {M. Clark}},
  editora = {{R. Patel} and {R. J. Smith} and {M. Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{p_dryburgh_rcnde_2018,
+
</bibtex> <bibtex>@techreport{p_dryburgh_rcnde_2018,
 
   venue = {{London (UK)}},
 
   venue = {{London (UK)}},
 
   title = {{{RCNDE}}: {{Laser}} Ultrasound for Additive Manufacturing Defects},
 
   title = {{{RCNDE}}: {{Laser}} Ultrasound for Additive Manufacturing Defects},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {{{RCNDE Technology Transfer Event}} 2018},
+
  institution = {{{RCNDE Technology Transfer Event}} 2018},
 
   date = {2018-01-29},
 
   date = {2018-01-29},
   author = {{P Dryburgh}},
+
   author = {{P Dryburgh}} and {{DM Pieris} and {R Patel} and {W Li} and {R Smith} and {M Clark} and {AT Clare}},
  editora = {{DM Pieris} and {R Patel} and {W Li} and {R Smith} and {M Clark} and {AT Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{don_m_pieris_rcnde_2018,
+
</bibtex> <bibtex>@techreport{don_m_pieris_rcnde_2018,
 
   venue = {{London (UK)}},
 
   venue = {{London (UK)}},
 
   title = {{{RCNDE}}: {{Observing Defects}} and {{Microstructure}} in {{Additively Manufactured Components}}},
 
   title = {{{RCNDE}}: {{Observing Defects}} and {{Microstructure}} in {{Additively Manufactured Components}}},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {{{RCNDE Technology Transfer Event}} 2018},
+
  institution = {{{RCNDE Technology Transfer Event}} 2018},
 
   date = {2018-01-29},
 
   date = {2018-01-29},
   author = {{Don M Pieris}},
+
   author = {{Don M Pieris}} and {{Rikesh Patel} and {Richard J Smith} and {Wenqi Li} and {Adam Clare} and {Matt Clark}},
  editora = {{Rikesh Patel} and {Richard J Smith} and {Wenqi Li} and {Adam Clare} and {Matt Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{matt_clark_finding_2018,
+
</bibtex> <bibtex>@techreport{matt_clark_finding_2018,
 
   venue = {{Sheffield (UK)}},
 
   venue = {{Sheffield (UK)}},
 
   title = {Finding and {{Fixing Defects}} in {{Metal Powder Bed Processes}}},
 
   title = {Finding and {{Fixing Defects}} in {{Metal Powder Bed Processes}}},
Line 637: Line 609:
 
Beyond identification of defects, next generation machine tools will be able to propose and execute repair strategies to some classifications of defects once observed. This will represent a step change in machine tool technology and will serve to open numerous applications for additive manufacturing. This talk will firstly address the rapidly shifting state-of-the-art in this area focusing on metal/polymer powder bed fabrication methodologies. Techniques for comparing in-process evaluation apparatus will be discussed with respect to assessing the spatial and temporal capability of a given instrument. Instruments being developed at the University of Nottingham for in process metrology and monitoring will be presented. Typical data sets created by these will be introduced and capability examined. The method of machine integration and reasonable expectations as a result of future developments will be discussed. In addition recent advances at Nottingham will be introduced which highlight a new methodology for detecting and repairing cracks and pores produced in metal powder bed systems. Activities supported through European and EPSRC initiative will also be explored. These include in-process fringe projection/ photogrammetry techniques, a two-sensor approach to process optimization, a multi-sensor fusion approach for metal powder-bed fusion, laser ultrasonics and optical coherence tomography.},
 
Beyond identification of defects, next generation machine tools will be able to propose and execute repair strategies to some classifications of defects once observed. This will represent a step change in machine tool technology and will serve to open numerous applications for additive manufacturing. This talk will firstly address the rapidly shifting state-of-the-art in this area focusing on metal/polymer powder bed fabrication methodologies. Techniques for comparing in-process evaluation apparatus will be discussed with respect to assessing the spatial and temporal capability of a given instrument. Instruments being developed at the University of Nottingham for in process metrology and monitoring will be presented. Typical data sets created by these will be introduced and capability examined. The method of machine integration and reasonable expectations as a result of future developments will be discussed. In addition recent advances at Nottingham will be introduced which highlight a new methodology for detecting and repairing cracks and pores produced in metal powder bed systems. Activities supported through European and EPSRC initiative will also be explored. These include in-process fringe projection/ photogrammetry techniques, a two-sensor approach to process optimization, a multi-sensor fusion approach for metal powder-bed fusion, laser ultrasonics and optical coherence tomography.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {1st {{Manufacturing}} Using {{Advanced Powder Processes Conference}} ({{MAPP}})},
+
  institution = {1st {{Manufacturing}} Using {{Advanced Powder Processes Conference}} ({{MAPP}})},
 
   date = {2018-01-30},
 
   date = {2018-01-30},
   author = {{Adam Clare}},
+
   author = {{Adam Clare}} and {{Matt Clark} and {Steve Sharples} and {Richard Smith} and {Wenqi Li} and {Rikesh Patel} and {Paul Dryburgh} and {Don Milesh Pieris}},
  editora = {{Matt Clark} and {Steve Sharples} and {Richard Smith} and {Wenqi Li} and {Rikesh Patel} and {Paul Dryburgh} and {Don Milesh Pieris}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{adam_clare_healing_2018,
+
</bibtex> <bibtex>@techreport{adam_clare_healing_2018,
 
   venue = {{Phoenix AZ (USA)}},
 
   venue = {{Phoenix AZ (USA)}},
 
   title = {Healing {{Defects}} within {{Powder Bed Fabrication}}},
 
   title = {Healing {{Defects}} within {{Powder Bed Fabrication}}},
 
   url = {https://www.tms.org/tms2018},
 
   url = {https://www.tms.org/tms2018},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{TMS}} 147th {{Annual Meeting}} and {{Exhibition}} ({{TMS2018}})},
+
  institution = {{{TMS}} 147th {{Annual Meeting}} and {{Exhibition}} ({{TMS2018}})},
 
   date = {2018-03-14},
 
   date = {2018-03-14},
   author = {{Adam Clare}},
+
   author = {{Adam Clare}} and {{Richard Leach} and {Ian Ashcroft} and {Matthias Hirsch} and {Rikesh Patel} and {Steve Sharples}},
  editora = {{Richard Leach} and {Ian Ashcroft} and {Matthias Hirsch} and {Rikesh Patel} and {Steve Sharples}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Invited}
 
   note = {Invited}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{adam_clare_rcnde_2018,
+
</bibtex> <bibtex>@techreport{adam_clare_rcnde_2018,
 
   venue = {{Manchester (UK)}},
 
   venue = {{Manchester (UK)}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   title = {{{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{RCNDE Research Review Meeting}}},
+
  institution = {{{RCNDE Research Review Meeting}}},
 
   year = {02/May/2018},
 
   year = {02/May/2018},
   author = {{Adam Clare} and {Rikesh Patel}},
+
   author = {{Adam Clare} and {Rikesh Patel}} and {{Matt Clark} and {Chris Tuck} and {Richard Smith} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
  editora = {{Matt Clark} and {Chris Tuck} and {Richard Smith} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{wenqi_li_spatially_2017,
+
</bibtex> <bibtex>@techreport{wenqi_li_spatially_2017,
 
   venue = {{Provo UT (USA)}},
 
   venue = {{Provo UT (USA)}},
 
   title = {Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): Texture and Microstructure Characterisation},
 
   title = {Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): Texture and Microstructure Characterisation},
 
   url = {https://www.qndeprograms.org/events/44th-annual-review-of-progress-in-quantitative-nondestructive-evaluation/},
 
   url = {https://www.qndeprograms.org/events/44th-annual-review-of-progress-in-quantitative-nondestructive-evaluation/},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {World {{Federation}} of {{NDE Centers Short Course}} 2017},
+
  institution = {World {{Federation}} of {{NDE Centers Short Course}} 2017},
 
   date = {2017-07-14},
 
   date = {2017-07-14},
   author = {{Wenqi Li}},
+
   author = {{Wenqi Li}} and {{Rikesh Patel} and {Richard Smith} and {Matthias Hirsch} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
  editora = {{Rikesh Patel} and {Richard Smith} and {Matthias Hirsch} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Invited}
 
   note = {Invited}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{matt_clark_spatially_2018-1,
+
</bibtex> <bibtex>@techreport{matt_clark_spatially_2018-1,
 
   venue = {{Bristol (UK)}},
 
   venue = {{Bristol (UK)}},
 
   title = {Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) and {{NDE}} for {{Additively}} Manufactured Components},
 
   title = {Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) and {{NDE}} for {{Additively}} Manufactured Components},
 
   url = {http://www.bindt.org/events/PastEvents/aerospace-workshop-2018-past/},
 
   url = {http://www.bindt.org/events/PastEvents/aerospace-workshop-2018-past/},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{BINDT Aerospace Event}}  2018},
+
  institution = {{{BINDT Aerospace Event}}  2018},
 
   year = {10/Apr/2018},
 
   year = {10/Apr/2018},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Matt Clark} and {Adam Clare} and {Steve Sharples} and {Richard Smith} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
  editora = {{Matt Clark} and {Adam Clare} and {Steve Sharples} and {Richard Smith} and {Wenqi Li} and {Paul Dryburgh} and {Don Milesh Pieris}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Invited + Panel invite}
 
   note = {Invited + Panel invite}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{paul_dryburgh_targeted_2018,
+
</bibtex> <bibtex>@techreport{paul_dryburgh_targeted_2018,
 
   venue = {{Edinburgh (UK)}},
 
   venue = {{Edinburgh (UK)}},
 
   title = {Targeted {{Rework}} of {{Powder Bed Fusion Additive Manufacturing}}},
 
   title = {Targeted {{Rework}} of {{Powder Bed Fusion Additive Manufacturing}}},
Line 701: Line 668:
 
This study investigates the use of spatially resolved acoustic spectroscopy (SRAS) scan data to inform repair strategies within a commercial selective laser melting machine.  Using the common aerospace nickel superalloys, Inconel 718 and CM247-LC, localised re-melting was shown to consistently reduce the depth of defect. A 50 \% reduction in defect depth was observed for both materials using different rework strategies. No appreciable variation was seen with the single-shot strategy, due inaccurate realignment.},
 
This study investigates the use of spatially resolved acoustic spectroscopy (SRAS) scan data to inform repair strategies within a commercial selective laser melting machine.  Using the common aerospace nickel superalloys, Inconel 718 and CM247-LC, localised re-melting was shown to consistently reduce the depth of defect. A 50 \% reduction in defect depth was observed for both materials using different rework strategies. No appreciable variation was seen with the single-shot strategy, due inaccurate realignment.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {19th {{International Symposium}} on {{Laser Precision Microfabrication}}},
+
  institution = {19th {{International Symposium}} on {{Laser Precision Microfabrication}}},
 
   date = {2018-06-26},
 
   date = {2018-06-26},
   author = {{Paul Dryburgh}},
+
   author = {{Paul Dryburgh}} and {{Rikesh Patel} and {Sam Catchpole-Smith} and {Matthias Hirsch} and {Luke Parry} and {Richard J Smith} and {Matt Clark} and {Ian A Ashcroft} and {Adam T Clare}},
  editora = {{Rikesh Patel} and {Sam Catchpole-Smith} and {Matthias Hirsch} and {Luke Parry} and {Richard J Smith} and {Matt Clark} and {Ian A Ashcroft} and {Adam T Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{r_patel_non-destructive_2018,
+
</bibtex> <bibtex>@techreport{r_patel_non-destructive_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Non-Destructive Evaluation of Additively Manufactured Materials –towards Online Inspection for Selective Laser Melting},
 
   title = {Non-Destructive Evaluation of Additively Manufactured Materials –towards Online Inspection for Selective Laser Melting},
Line 718: Line 684:
 
This work was supported by the research centre for nondestructive evaluation (RCNDE) [EP/L022125/1]},
 
This work was supported by the research centre for nondestructive evaluation (RCNDE) [EP/L022125/1]},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
+
  institution = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
 
   year = {09/July/2018},
 
   year = {09/July/2018},
   author = {{R Patel}},
+
   author = {{R Patel}} and {{P Dryburgh} and {D Pieris} and {W Li} and {R Smith} and {A Clare} and {M Clark}},
  editora = {{P Dryburgh} and {D Pieris} and {W Li} and {R Smith} and {A Clare} and {M Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_rcnde_2018,
+
</bibtex> <bibtex>@techreport{rikesh_patel_rcnde_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {{{RCNDE}}: {{Spatially}} Resolved Acoustic Spectroscopy ({{SRAS}}) Inspection on as-Deposited Selective Laser Melted ({{SLM}}) Builds},
 
   title = {{{RCNDE}}: {{Spatially}} Resolved Acoustic Spectroscopy ({{SRAS}}) Inspection on as-Deposited Selective Laser Melted ({{SLM}}) Builds},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {{{RCNDE Early Stage Researchers Event}} 2018},
+
  institution = {{{RCNDE Early Stage Researchers Event}} 2018},
 
   date = {2018-06-18},
 
   date = {2018-06-18},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Matthias Hirsch} and {Paul Dryburgh} and {Don M. Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
  editora = {{Matthias Hirsch} and {Paul Dryburgh} and {Don M. Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{wenqi_li_rcnde_2018,
+
</bibtex> <bibtex>@techreport{wenqi_li_rcnde_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {{{RCNDE}}: {{Orientation Imaging}} of {{Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy}}},
 
   title = {{{RCNDE}}: {{Orientation Imaging}} of {{Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy}}},
 
   type = {Poster},
 
   type = {Poster},
  eventtitle = {{{RCNDE Early Stage Researchers Event}} 2018},
+
  institution = {{{RCNDE Early Stage Researchers Event}} 2018},
 
   date = {2018-06-18},
 
   date = {2018-06-18},
   author = {{Wenqi Li}},
+
   author = {{Wenqi Li}} and {{Rikesh Patel} and {Richard Smith} and {Matt Clark} and {Steve Sharples}},
  editora = {{Rikesh Patel} and {Richard Smith} and {Matt Clark} and {Steve Sharples}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{p_dryburgh_making_2018,
+
</bibtex> <bibtex>@techreport{p_dryburgh_making_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Making and Utilising Online Measurements by Laser Ultrasound in Powder Bed Additive Manufacturing},
 
   title = {Making and Utilising Online Measurements by Laser Ultrasound in Powder Bed Additive Manufacturing},
Line 754: Line 717:
 
Spatially Resolved Acoustic Spectroscopy (SRAS) is an acoustic microscopy technique, which utilises laser ultrasonics for the excitation and detection of surface acoustic waves for materials characterisation. This technique meets many of the requirements of a suitable inspection technique for SLM, such as non-destructive, and early studies have confirmed the ability to detect defects and measure microstructure in SLM parts using SRAS. However, significant challenges remain as the technique and instrumentation is developed towards online measurements. This talk will discuss the merits of using SRAS for in-process inspection for defect detection and characterisation, with a review to enabling remedial action. Discussion will touch on system capability, including a time-cost model and progress towards build system integration. Particular focus will be paid to the detection and characterisation of porosity, both subsurface and surface breaking.},
 
Spatially Resolved Acoustic Spectroscopy (SRAS) is an acoustic microscopy technique, which utilises laser ultrasonics for the excitation and detection of surface acoustic waves for materials characterisation. This technique meets many of the requirements of a suitable inspection technique for SLM, such as non-destructive, and early studies have confirmed the ability to detect defects and measure microstructure in SLM parts using SRAS. However, significant challenges remain as the technique and instrumentation is developed towards online measurements. This talk will discuss the merits of using SRAS for in-process inspection for defect detection and characterisation, with a review to enabling remedial action. Discussion will touch on system capability, including a time-cost model and progress towards build system integration. Particular focus will be paid to the detection and characterisation of porosity, both subsurface and surface breaking.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
+
  institution = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
 
   year = {09/July/2018},
 
   year = {09/July/2018},
   author = {{P Dryburgh}},
+
   author = {{P Dryburgh}} and {{D M Pieris} and {R Patel} and {W Li} and {R J Smith} and {M Clark} and {A T Clare}},
  editora = {{D M Pieris} and {R Patel} and {W Li} and {R J Smith} and {M Clark} and {A T Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{w_li_orientation_2018,
+
</bibtex> <bibtex>@techreport{w_li_orientation_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy},
 
   title = {Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy},
Line 767: Line 729:
 
   abstract = {Solar panel is a key component for renewable energy industry; the polysilicon, also called multicrystalline silicon, is widely used to produce solar cell wafers. However, as the structure and orientation strongly linked to conversion efficiencies, polysilicon are often less efficient than equivalent monocrystalline or thin film cells. The capability of a non-destructive laser ultrasonic inspection technique -- spatially resolved acoustic spectroscopy (SRAS) – is presented for characterising silicon cell wafer's microstructure and grains orientation; scanning times, sample surface preparation and system upgrades for silicon measurement are also discussed. This technique could be used to optimise the polysilicon wafer production process and potentially improve efficiency},
 
   abstract = {Solar panel is a key component for renewable energy industry; the polysilicon, also called multicrystalline silicon, is widely used to produce solar cell wafers. However, as the structure and orientation strongly linked to conversion efficiencies, polysilicon are often less efficient than equivalent monocrystalline or thin film cells. The capability of a non-destructive laser ultrasonic inspection technique -- spatially resolved acoustic spectroscopy (SRAS) – is presented for characterising silicon cell wafer's microstructure and grains orientation; scanning times, sample surface preparation and system upgrades for silicon measurement are also discussed. This technique could be used to optimise the polysilicon wafer production process and potentially improve efficiency},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
+
  institution = {6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}})},
 
   year = {09/July/2018},
 
   year = {09/July/2018},
   author = {{W Li}},
+
   author = {{W Li}} and {{R Patel} and {R J Smith} and {M Clark}},
  editora = {{R Patel} and {R J Smith} and {M Clark}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_laser_2018,
+
</bibtex> <bibtex>@techreport{rikesh_patel_laser_2018,
 
   venue = {{Burlington VT (USA)}},
 
   venue = {{Burlington VT (USA)}},
 
   title = {Laser Ultrasound in Additive Manufacture: Overcoming the Rough Surface Challenge},
 
   title = {Laser Ultrasound in Additive Manufacture: Overcoming the Rough Surface Challenge},
 
   url = {https://register.extension.iastate.edu/qnde/program/wfnde-short-course},
 
   url = {https://register.extension.iastate.edu/qnde/program/wfnde-short-course},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {World {{Federation}} of {{NDE Centers Short Course}} 2018},
+
  institution = {World {{Federation}} of {{NDE Centers Short Course}} 2018},
 
   date = {2018-07-15},
 
   date = {2018-07-15},
 
   author = {{Rikesh Patel}},
 
   author = {{Rikesh Patel}},
Line 785: Line 746:
 
}
 
}
  
</bibtex> <bibtex>@unpublished{rikesh_patel_non-destructive_2018,
+
</bibtex> <bibtex>@techreport{rikesh_patel_non-destructive_2018,
 
   venue = {{Burlington VT (USA)}},
 
   venue = {{Burlington VT (USA)}},
 
   title = {Non-{{Destructive Evaluation}} of {{Additively Manufactured Materials}} - towards Online Inspection for {{Selective Laser Melting}}},
 
   title = {Non-{{Destructive Evaluation}} of {{Additively Manufactured Materials}} - towards Online Inspection for {{Selective Laser Melting}}},
Line 793: Line 754:
 
The proposed laser ultrasound technique can be used to detected both surface and subsurface defects, and can be used to inspect the material microstructure or texture. Working on as-deposited SLM material is challenging due to the high surface roughness. We will present results of the laser ultrasonic technique – spatially resolved acoustic spectroscopy (SRAS) – on as deposited material from a build chamber compatible instrument. We will discuss the possibilities for defect and microstructure control, and the challenges remaining for online inspection.},
 
The proposed laser ultrasound technique can be used to detected both surface and subsurface defects, and can be used to inspect the material microstructure or texture. Working on as-deposited SLM material is challenging due to the high surface roughness. We will present results of the laser ultrasonic technique – spatially resolved acoustic spectroscopy (SRAS) – on as deposited material from a build chamber compatible instrument. We will discuss the possibilities for defect and microstructure control, and the challenges remaining for online inspection.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{45QNDE}})},
+
  institution = {45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{45QNDE}})},
 
   date = {2018-07-16},
 
   date = {2018-07-16},
   author = {{Rikesh Patel}},
+
   author = {{Rikesh Patel}} and {{Paul Dryburgh} and {Don Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare}},
  editora = {{Paul Dryburgh} and {Don Pieris} and {Wenqi Li} and {Richard Smith} and {Matt Clark} and {Adam Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{paul_dryburgh_spatially_2018-1,
+
</bibtex> <bibtex>@techreport{paul_dryburgh_spatially_2018-1,
 
   venue = {{Austin TX (USA)}},
 
   venue = {{Austin TX (USA)}},
 
   title = {Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) for Additive Manufacturing},
 
   title = {Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) for Additive Manufacturing},
Line 807: Line 767:
 
The acoustic microscopy technique spatially resolved acoustic spectroscopy is an exciting proposition for use in component integrity assessment, due to its ability to detect surface and subsurface defects, and probe material properties. This talk will introduce typical datasets from both prepared and as-deposited AM surfaces, and discuss the opportunity presented by collecting data online, focusing on rework of defects. The talk will conclude with an overview of progress made towards online integration and on-going challenges.},
 
The acoustic microscopy technique spatially resolved acoustic spectroscopy is an exciting proposition for use in component integrity assessment, due to its ability to detect surface and subsurface defects, and probe material properties. This talk will introduce typical datasets from both prepared and as-deposited AM surfaces, and discuss the opportunity presented by collecting data online, focusing on rework of defects. The talk will conclude with an overview of progress made towards online integration and on-going challenges.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {29th {{Annual International Solid Freeform Fabrication Symposium}} ({{SFF2018}})},
+
  institution = {29th {{Annual International Solid Freeform Fabrication Symposium}} ({{SFF2018}})},
 
   date = {2018-08-14},
 
   date = {2018-08-14},
   author = {{Paul Dryburgh}},
+
   author = {{Paul Dryburgh}} and {{Don Milesh Pieris} and {Rikesh Patel} and {Richard J Smith} and {Steve Sharples} and {Matt Clark} and {Adam T Clare}},
  editora = {{Don Milesh Pieris} and {Rikesh Patel} and {Richard J Smith} and {Steve Sharples} and {Matt Clark} and {Adam T Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{paul_dryburgh_use_2018,
+
</bibtex> <bibtex>@techreport{paul_dryburgh_use_2018,
 
   venue = {{Furth (Germany)}},
 
   venue = {{Furth (Germany)}},
 
   title = {The Use of a Laser to Monitor and Correct in {{SLM}}},
 
   title = {The Use of a Laser to Monitor and Correct in {{SLM}}},
 
   url = {https://www.lane-conference.org/},
 
   url = {https://www.lane-conference.org/},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {10th {{CIRP Conference}} on {{Photonic Technologies}} ({{LANE2018}})},
+
  institution = {10th {{CIRP Conference}} on {{Photonic Technologies}} ({{LANE2018}})},
 
   year = {04/Sept/2018},
 
   year = {04/Sept/2018},
   author = {{Paul Dryburgh}},
+
   author = {{Paul Dryburgh}} and {{Don Milesh Pieris} and {Rikesh Patel} and {Matthias Hirsch} and {Richard J Smith} and {Steve Sharples} and {Matt Clark} and {Adam T Clare}},
  editora = {{Don Milesh Pieris} and {Rikesh Patel} and {Matthias Hirsch} and {Richard J Smith} and {Steve Sharples} and {Matt Clark} and {Adam T Clare}},
 
 
   editoratype = {collaborator}
 
   editoratype = {collaborator}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{don_pieris_spatially_2018,
+
</bibtex> <bibtex>@techreport{don_pieris_spatially_2018,
 
   venue = {{Nottingham (UK)}},
 
   venue = {{Nottingham (UK)}},
 
   title = {Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection},
 
   title = {Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection},
Line 832: Line 790:
 
   abstract = {High-integrity engineering applications such as aerospace will not permit the incorporation of components containing any structural defects. The current generation of additive manufacturing platforms yield components with relatively high levels of defects. The in-line inspection of the components built using additive can provide closed-loop feedback and vary build parameters during fabrication to minimise such defects. This article reviews the capability of spatially resolved acoustic spectroscopy to be used as an in-line inspection tool for detecting the changes in parts induced due to variations in build parameters. The first considers the build laser power and the second varies the laser scan strategy used to build the component. Using the detected probe light intensity map and the measured surface acoustic velocity, the detection of surface defects, subsurface defects and component microstructure can be measured.},
 
   abstract = {High-integrity engineering applications such as aerospace will not permit the incorporation of components containing any structural defects. The current generation of additive manufacturing platforms yield components with relatively high levels of defects. The in-line inspection of the components built using additive can provide closed-loop feedback and vary build parameters during fabrication to minimise such defects. This article reviews the capability of spatially resolved acoustic spectroscopy to be used as an in-line inspection tool for detecting the changes in parts induced due to variations in build parameters. The first considers the build laser power and the second varies the laser scan strategy used to build the component. Using the detected probe light intensity map and the measured surface acoustic velocity, the detection of surface defects, subsurface defects and component microstructure can be measured.},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {{{BINDT}}},
+
  institution = {{{BINDT}}},
 
   year = {10/Sept/2018},
 
   year = {10/Sept/2018},
   author = {{Don Pieris}},
+
   author = {{Don Pieris}} and {{Rikesh Patel} and {Paul Dryburgh} and {Matthias Hirsch} and {Wenqi Li} and {Steve D. Sharples} and {Richard J. Smith} and {Adam T. Clare} and {Matt Clark}},
  editora = {{Rikesh Patel} and {Paul Dryburgh} and {Matthias Hirsch} and {Wenqi Li} and {Steve D. Sharples} and {Richard J. Smith} and {Adam T. Clare} and {Matt Clark}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Winner student prize}
 
   note = {Winner student prize}
 
}
 
}
  
</bibtex> <bibtex>@unpublished{wenqi_li_spatially_2018,
+
</bibtex> <bibtex>@techreport{wenqi_li_spatially_2018,
 
   venue = {{Erice (Italy)}},
 
   venue = {{Erice (Italy)}},
 
   title = {Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): A {{NDE}} Technique for Materials Characterisation Based on Laser Ultrasonic},
 
   title = {Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): A {{NDE}} Technique for Materials Characterisation Based on Laser Ultrasonic},
 
   url = {http://www.sbai.uniroma1.it/conferenze/photoacoustic-photothermal/},
 
   url = {http://www.sbai.uniroma1.it/conferenze/photoacoustic-photothermal/},
 
   type = {Oral},
 
   type = {Oral},
  eventtitle = {Progress in {{Photoacoustic}} \& {{Photothermal Phenomena Focus}} on {{Biomedical}}, {{Nanoscale}}, {{NDE}} and {{Thermophysical Phenomena}} and {{Technologies}} ({{PAPT2018}})},
+
  institution = {Progress in {{Photoacoustic}} \& {{Photothermal Phenomena Focus}} on {{Biomedical}}, {{Nanoscale}}, {{NDE}} and {{Thermophysical Phenomena}} and {{Technologies}} ({{PAPT2018}})},
 
   year = {11/Sept/2018},
 
   year = {11/Sept/2018},
   author = {{Wenqi Li}},
+
   author = {{Wenqi Li}} and {{Rikesh Patel} and {Paul Dryburgh} and {Don Milesh Pieris} and {Richard Smith} and {Adam Clare} and {Matt Clark}},
  editora = {{Rikesh Patel} and {Paul Dryburgh} and {Don Milesh Pieris} and {Richard Smith} and {Adam Clare} and {Matt Clark}},
 
 
   editoratype = {collaborator},
 
   editoratype = {collaborator},
 
   note = {Winner best paper}
 
   note = {Winner best paper}
 
}
 
}
</bibtex>  
+
</bibtex>
* UON Institute of Aerospace exposition, Nottingham UK - 2010
 
* KTP innovate event, London UK - 2011
 
* OSA Optics and Photonics Congress, Toronto Canada - 2011
 
* IOP Photon12, Durham UK - 2012
 
* IOP Anglo-French physical acoustic conference AFPAC2015, Frejus France - 2015
 
* BINDT Aerospace event 2015, Sheffield UK - 2015
 
* 4th International Symposium on Laser Ultrasonics LU2015, Evanston IL USA - 2015
 
* 5th International Symposium on Laser Ultrasonics LU2015, Linz, Austria – 2016
 
* Early Stage Researchers RCNDE event, Manchester UK - 2016
 
* RCNDE University of Nottingham industrial tour, Nottingham UK - 2016
 
* Optics+Ultrasound III, Nottingham UK – 2016
 
* RCNDE technology transfer event, Warwick, UK - 2017
 

Revision as of 18:02, 29 October 2018

Rikesh Patel

Location

202/307 Tower, University Park

C38 SIOS Pharmacy, University Park

Phone

+44 (0)115 84-67892

Email

rikesh.patelAtnotts.png

Education/Posts

2004-2008 MEng Electronic and Computer Engineering (1st Class), University of Nottingham

2008-2014 PhD Electrical and Electronic Engineering (Thesis), University of Nottingham

2013-2014 Research Assistant, University of Nottingham

2014- Research Associate, University of Nottingham

Awards

  • University of Nottingham interdisciplinary research funding award (UNICAS) - 2014
  • Applied optics group internal research proposal review award (1st place) - 2015

Journal publications

University repository for Rikesh Patel (old)

Patel Rikesh, Hirsch Matthias, Dryburgh Paul, Pieris Don, Achamfuo-Yeboah Samuel, Smith Richard, Light Roger, Sharples Steve, Clare Adam, Clark Matt - Imaging Material Texture of As-Deposited Selective Laser Melted Parts Using Spatially Resolved Acoustic Spectroscopy
8(10):1991
http://www.mdpi.com/2076-3417/8/10/1991
Bibtex
Author : Patel Rikesh, Hirsch Matthias, Dryburgh Paul, Pieris Don, Achamfuo-Yeboah Samuel, Smith Richard, Light Roger, Sharples Steve, Clare Adam, Clark Matt
Title : Imaging Material Texture of As-Deposited Selective Laser Melted Parts Using Spatially Resolved Acoustic Spectroscopy
In : -
Address :
Date :

Speidel Alistair, Su Rong, Mitchell-Smith Jonathon, Dryburgh Paul, Bisterov Ivan, Pieris Don, Li Wenqi, Patel Rikesh, Clark Matt, Clare Adam T. - Crystallographic Texture Can Be Rapidly Determined by Electrochemical Surface Analytics
159:89-101
https://linkinghub.elsevier.com/retrieve/pii/S1359645418305998
Bibtex
Author : Speidel Alistair, Su Rong, Mitchell-Smith Jonathon, Dryburgh Paul, Bisterov Ivan, Pieris Don, Li Wenqi, Patel Rikesh, Clark Matt, Clare Adam T.
Title : Crystallographic Texture Can Be Rapidly Determined by Electrochemical Surface Analytics
In : -
Address :
Date :

Colombi, Andrea, Ageeva, Victoria, Smith, Richard J., Clare, Adam, Patel, Rikesh, Clark, Matt, Colquitt, Daniel, Roux, Philippe, Guenneau, Sebastien, Craster, Richard V. - Enhanced sensing and conversion of ultrasonic Rayleigh waves by elastic metasurfaces
Scientific Reports 7(1), Dec 2017
http://www.nature.com/articles/s41598-017-07151-6
Bibtex
Author : Colombi, Andrea, Ageeva, Victoria, Smith, Richard J., Clare, Adam, Patel, Rikesh, Clark, Matt, Colquitt, Daniel, Roux, Philippe, Guenneau, Sebastien, Craster, Richard V.
Title : Enhanced sensing and conversion of ultrasonic Rayleigh waves by elastic metasurfaces
In : Scientific Reports -
Address :
Date : Dec 2017

M. Hirsch, P. Dryburgh, S. Catchpole-Smith, R. Patel, L. Parry, S.D. Sharples, I.A. Ashcroft, A.T. Clare - Targeted rework strategies for powder bed additive manufacture
Additive Manufacturing 19:127 - 133,2018
https://www.sciencedirect.com/science/article/pii/S2214860417303925
Bibtex
Author : M. Hirsch, P. Dryburgh, S. Catchpole-Smith, R. Patel, L. Parry, S.D. Sharples, I.A. Ashcroft, A.T. Clare
Title : Targeted rework strategies for powder bed additive manufacture
In : Additive Manufacturing -
Address :
Date : 2018

Rikesh Patel, Wenqi Li, Richard J. Smith, Steve D. Sharples, Matt Clark - Orientation imaging of macro-sized polysilicon grains on wafers using spatially resolved acoustic spectroscopy
Scripta Materialia 140(Supplement C):67 - 70,2017
http://www.sciencedirect.com/science/article/pii/S1359646217303846
Bibtex
Author : Rikesh Patel, Wenqi Li, Richard J. Smith, Steve D. Sharples, Matt Clark
Title : Orientation imaging of macro-sized polysilicon grains on wafers using spatially resolved acoustic spectroscopy
In : Scripta Materialia -
Address :
Date : 2017

Hirsch, M., Catchpole-Smith, S., Patel, R., Marrow, P., Li, Wenqi, Tuck, C., Sharples, S. D., Clare, A. T. - Meso-scale defect evaluation of selective laser melting using spatially resolved acoustic spectroscopy
Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences 473(2205),2017
http://rspa.royalsocietypublishing.org/content/473/2205/20170194
Bibtex
Author : Hirsch, M., Catchpole-Smith, S., Patel, R., Marrow, P., Li, Wenqi, Tuck, C., Sharples, S. D., Clare, A. T.
Title : Meso-scale defect evaluation of selective laser melting using spatially resolved acoustic spectroscopy
In : Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences -
Address :
Date : 2017

Matthias Hirsch, Rikesh Patel, Wenqi Li, Guangying Guan, Richard K. Leach, Steve D. Sharples, Adam T. Clare - Assessing the capability of in-situ nondestructive analysis during layer based additive manufacture
Additive Manufacturing 13:135 - 142,2017
http://www.sciencedirect.com/science/article/pii/S2214860416301877
Bibtex
Author : Matthias Hirsch, Rikesh Patel, Wenqi Li, Guangying Guan, Richard K. Leach, Steve D. Sharples, Adam T. Clare
Title : Assessing the capability of in-situ nondestructive analysis during layer based additive manufacture
In : Additive Manufacturing -
Address :
Date : 2017

Richard J. Smith, Matthias Hirsch, Rikesh Patel, Wenqi Li, Adam T. Clare, Steve D. Sharples - Spatially resolved acoustic spectroscopy for selective laser melting
Journal of Materials Processing Technology 236:93 - 102,2016
http://www.sciencedirect.com/science/article/pii/S0924013616301352
Bibtex
Author : Richard J. Smith, Matthias Hirsch, Rikesh Patel, Wenqi Li, Adam T. Clare, Steve D. Sharples
Title : Spatially resolved acoustic spectroscopy for selective laser melting
In : Journal of Materials Processing Technology -
Address :
Date : 2016

Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark - Widefield two laser interferometry
Opt. Express 22(22):27094--27101, Nov 2014
http://www.opticsexpress.org/abstract.cfm?URI=oe-22-22-27094
Bibtex
Author : Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark
Title : Widefield two laser interferometry
In : Opt. Express -
Address :
Date : Nov 2014

Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark - Ultrastable heterodyne interferometer system using a CMOS modulated light camera
Opt. Express 20(16):17722--17733, Jul 2012
http://www.opticsexpress.org/abstract.cfm?URI=oe-20-16-17722
Bibtex
Author : Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark
Title : Ultrastable heterodyne interferometer system using a CMOS modulated light camera
In : Opt. Express -
Address :
Date : Jul 2012

Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark - Widefield heterodyne interferometry using a custom CMOS modulated light camera
Opt. Express 19(24):24546--24556, Nov 2011
http://www.opticsexpress.org/abstract.cfm?URI=oe-19-24-24546
Bibtex
Author : Rikesh Patel, Samuel Achamfuo-Yeboah, Roger Light, Matt Clark
Title : Widefield heterodyne interferometry using a custom CMOS modulated light camera
In : Opt. Express -
Address :
Date : Nov 2011

Proceedings

Patel, Rikesh, Clark, Matt, Achamfuo-Yeboah, Samuel - Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
Imaging and {{Applied Optics}} pp. JWA14
https://www.osapublishing.org/abstract.cfm?URI=AOPT-2011-JWA14
Bibtex
Author : Patel, Rikesh, Clark, Matt, Achamfuo-Yeboah, Samuel
Title : Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
In : Imaging and {{Applied Optics}} -
Address :
Date :

P. Dryburgh, R. Patel, S. Catchpole-Smith, M. Hirsch, L. Perry, I. A. Ashcroft, A.T. Clare - Targeted Rework of Powder Bed Fusion Additive Manufacturing
19th {{International Symposium}} on {{Laser Precision Microfabrication}} pp. JLMN-18-089
http://www.jlps.gr.jp/en/proc/lpm/18/
Bibtex
Author : P. Dryburgh, R. Patel, S. Catchpole-Smith, M. Hirsch, L. Perry, I. A. Ashcroft, A.T. Clare
Title : Targeted Rework of Powder Bed Fusion Additive Manufacturing
In : 19th {{International Symposium}} on {{Laser Precision Microfabrication}} -
Address :
Date :

Don Milesh Pieris, Rikesh Patel, Paul Dryburgh, Matthias Hirsch, Wenqi Li, Steve D. Sharples, Richard J. Smith, Adam T. Clare, Matt Clark - Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection
57th {{The British Institue}} of {{Non}}-Destructive {{Testing Annual Conference}}
http://www.bindt.org/events/PastEvents/ndt-2018/
Bibtex
Author : Don Milesh Pieris, Rikesh Patel, Paul Dryburgh, Matthias Hirsch, Wenqi Li, Steve D. Sharples, Richard J. Smith, Adam T. Clare, Matt Clark
Title : Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection
In : 57th {{The British Institue}} of {{Non}}-Destructive {{Testing Annual Conference}} -
Address :
Date :

Paul Dryburgh, Rikesh Patel, Don M. Pieris, Matthias Hirsch, Wenqi Li, Steve D. Sharples, Richard J. Smith, Adam T. Clare, Matt Clark - Spatially Resolved Acoustic Spectroscopy for Texture Imaging in Powder Bed Fusion Nickel Superalloys
45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}}
Bibtex
Author : Paul Dryburgh, Rikesh Patel, Don M. Pieris, Matthias Hirsch, Wenqi Li, Steve D. Sharples, Richard J. Smith, Adam T. Clare, Matt Clark
Title : Spatially Resolved Acoustic Spectroscopy for Texture Imaging in Powder Bed Fusion Nickel Superalloys
In : 45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} -
Address :
Date :

Matt Clark, Adam Clare, Paul Dryburgh, Wenqi Li, Rikesh Patel, Don Pieris, Steve Sharples, Richard Smith - Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) {{Microstructural Imaging}}
45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}}
Bibtex
Author : Matt Clark, Adam Clare, Paul Dryburgh, Wenqi Li, Rikesh Patel, Don Pieris, Steve Sharples, Richard Smith
Title : Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) {{Microstructural Imaging}}
In : 45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} -
Address :
Date :

Conferences and Events

Rikesh Patel - Custom {{CMOS}} Modulated Light Camera for Use in Aerospace Industry
Technical Report - Poster, University of {{Nottingham Institute}} of {{Aerospace Exposition}}
Bibtex
Author : Rikesh Patel
Title : Custom {{CMOS}} Modulated Light Camera for Use in Aerospace Industry
In : Technical Report - Poster, University of {{Nottingham Institute}} of {{Aerospace Exposition}} -
Address :
Date :
Rikesh Patel - Widefield Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
Technical Report - Poster, 3rd {{Intelligent Imaging Programme}}
Bibtex
Author : Rikesh Patel
Title : Widefield Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
In : Technical Report - Poster, 3rd {{Intelligent Imaging Programme}} -
Address :
Date :
Rikesh Patel - Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
Technical Report - Poster, {{OSA Imaging}} and {{Applied Optics}} 2011
https://www.osapublishing.org/abstract.cfm?URI=AOPT-2011-JWA14
Bibtex
Author : Rikesh Patel
Title : Widefield Ultrastable Heterodyne Interferometry Using a Custom {{CMOS}} Modulated Light Camera
In : Technical Report - Poster, {{OSA Imaging}} and {{Applied Optics}} 2011 -
Address :
Date :
Rikesh Patel - Widefield Two-Laser Interferometer System Using a Modulated Light Camera
Technical Report - Oral, {{IOP Photon12}}
Bibtex
Author : Rikesh Patel
Title : Widefield Two-Laser Interferometer System Using a Modulated Light Camera
In : Technical Report - Oral, {{IOP Photon12}} -
Address :
Date :
Rikesh Patel - Ultrasonic {{Inspection}} of {{Additive Manufactured Components}}
Technical Report - Oral, 14th {{Anglo}}-{{French Physical Acoustics Conference}} ({{AFPAC2015}})
https://intranet.sfa.asso.fr/archives/J87-AFPAC2015/
Bibtex
Author : Rikesh Patel
Title : Ultrasonic {{Inspection}} of {{Additive Manufactured Components}}
In : Technical Report - Oral, 14th {{Anglo}}-{{French Physical Acoustics Conference}} ({{AFPAC2015}}) -
Address :
Date :
Richard Smith - {{SRAS UT Grain Measurement}}
Technical Report - Oral, The {{Technical Cooperation Programme}} ({{TTCP}}) ,05/Mar/2015
Bibtex
Author : Richard Smith
Title : {{SRAS UT Grain Measurement}}
In : Technical Report - Oral, The {{Technical Cooperation Programme}} ({{TTCP}}) -
Address :
Date : 05/Mar/2015
Adam Clare - {{NDT}} for {{AM}} – {{Research}} Efforts at the {{University}} of {{Nottingham}}
Technical Report - Oral, {{BINDT Aerospace Event}} 2015
Bibtex
Author : Adam Clare
Title : {{NDT}} for {{AM}} – {{Research}} Efforts at the {{University}} of {{Nottingham}}
In : Technical Report - Oral, {{BINDT Aerospace Event}} 2015 -
Address :
Date :
Rikesh Patel - On Using Ultrasonic Non-Destructive Evaluation for Additive Manufactured Samples
Technical Report - Oral, 4th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2015}})
Bibtex
Author : Rikesh Patel
Title : On Using Ultrasonic Non-Destructive Evaluation for Additive Manufactured Samples
In : Technical Report - Oral, 4th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2015}}) -
Address :
Date :
Jethro Coulson - Non-{{Destructive Evaluation}} for {{Additive Manufacturing}}
Technical Report - Oral, 42nd {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{42QNDE}})
https://www.qndeprograms.org/sites/default/files/2015-abstract_1.pdf
Bibtex
Author : Jethro Coulson
Title : Non-{{Destructive Evaluation}} for {{Additive Manufacturing}}
In : Technical Report - Oral, 42nd {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{42QNDE}}) -
Address :
Date :
Steve Sharples - {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
Technical Report - Oral, {{RCNDE Research Review Meeting}}
Bibtex
Author : Steve Sharples
Title : {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
In : Technical Report - Oral, {{RCNDE Research Review Meeting}} -
Address :
Date :
Rikesh Patel - Laser Ultrasonic Inspection of As-Deposited {{AM}} Samples
Technical Report - Oral, 5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}}) ,02/July/2016
https://www.recendt.at/de/lu2016.html
Bibtex
Author : Rikesh Patel
Title : Laser Ultrasonic Inspection of As-Deposited {{AM}} Samples
In : Technical Report - Oral, 5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}}) -
Address :
Date : 02/July/2016
Victoria Ageeva - Control of the {{Rayleigh}} Wave Propagation with a Resonant Metawedge: A Practical Concept Demonstration of Seismic Metamaterials
Technical Report - Poster, 5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}}) ,02/July/2016
https://www.recendt.at/de/lu2016.html
Bibtex
Author : Victoria Ageeva
Title : Control of the {{Rayleigh}} Wave Propagation with a Resonant Metawedge: A Practical Concept Demonstration of Seismic Metamaterials
In : Technical Report - Poster, 5th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2016}}) -
Address :
Date : 02/July/2016
Rikesh Patel - {{RCNDE}}: {{Laser}} Ultrasonic Inspection of as-Deposited {{AM}} Samples
Technical Report - Oral, {{RCNDE Early Stage Researchers Event}} 2016
Bibtex
Author : Rikesh Patel
Title : {{RCNDE}}: {{Laser}} Ultrasonic Inspection of as-Deposited {{AM}} Samples
In : Technical Report - Oral, {{RCNDE Early Stage Researchers Event}} 2016 -
Address :
Date :
A. Clare - In-{{Process Monitoring}} of {{Additive Layer Manufacturing}}
Technical Report - Oral, {{CIRP}} 66th {{General Assembly}} ({{CIRP}} 2016)
https://cirp2016.org/
Bibtex
Author : A. Clare
Title : In-{{Process Monitoring}} of {{Additive Layer Manufacturing}}
In : Technical Report - Oral, {{CIRP}} 66th {{General Assembly}} ({{CIRP}} 2016) -
Address :
Date :
Rikesh Patel - {{RCNDE}}: {{Inspection}} of Additive Manufacture Parts Using {{SRAS}}
Technical Report - Oral, {{RCNDE Industrial Working Group Visit}} 2016
Bibtex
Author : Rikesh Patel
Title : {{RCNDE}}: {{Inspection}} of Additive Manufacture Parts Using {{SRAS}}
In : Technical Report - Oral, {{RCNDE Industrial Working Group Visit}} 2016 -
Address :
Date :
Rikesh Patel - Using Spatially Resolved Acoustic Spectroscopy ({{SRAS}}) on {{AM}} Produced Parts
Technical Report - Oral, {{IOP Optics}}+{{Ultrasound III}} ,09/Nov/2016
http://optics.eee.nottingham.ac.uk/w/images/7/76/Optics%2Bultrasound_abstracts.pdf
Bibtex
Author : Rikesh Patel
Title : Using Spatially Resolved Acoustic Spectroscopy ({{SRAS}}) on {{AM}} Produced Parts
In : Technical Report - Oral, {{IOP Optics}}+{{Ultrasound III}} -
Address :
Date : 09/Nov/2016
Adam T. Clare - Approaches for {{AM}} In-Process Inspection Using {{SRAS}} and {{OCT}}
Technical Report - Oral, {{EUSPEN}} 17th {{International Conference}} \& {{Exhibition}}
https://www.euspen.eu/events/17th-international-conference-exhibition/
Bibtex
Author : Adam T. Clare
Title : Approaches for {{AM}} In-Process Inspection Using {{SRAS}} and {{OCT}}
In : Technical Report - Oral, {{EUSPEN}} 17th {{International Conference}} \& {{Exhibition}} -
Address :
Date :
Rikesh Patel - {{RCNDE}}: {{Additive Manufacturing}} and the Role of {{NDE}}
Technical Report - Oral, {{RCNDE Technology Transfer Event}} 2017
Bibtex
Author : Rikesh Patel
Title : {{RCNDE}}: {{Additive Manufacturing}} and the Role of {{NDE}}
In : Technical Report - Oral, {{RCNDE Technology Transfer Event}} 2017 -
Address :
Date :
Rikesh Patel - {{RCNDE}}: {{SRAS}} Live Demonstration
Technical Report - Demonstration, {{RCNDE Technology Transfer Event}} 2017
Bibtex
Author : Rikesh Patel
Title : {{RCNDE}}: {{SRAS}} Live Demonstration
In : Technical Report - Demonstration, {{RCNDE Technology Transfer Event}} 2017 -
Address :
Date :
Steve Sharples - {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
Technical Report - Oral, {{RCNDE Research Review Meeting}} ,10/May/2017
Bibtex
Author : Steve Sharples
Title : {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
In : Technical Report - Oral, {{RCNDE Research Review Meeting}} -
Address :
Date : 10/May/2017
Adam Clare - {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
Technical Report - Oral, {{RCNDE Research Review Meeting}}
Bibtex
Author : Adam Clare
Title : {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
In : Technical Report - Oral, {{RCNDE Research Review Meeting}} -
Address :
Date :
Rikesh Patel - {{SKED}}-{{In}}-a-Box
Technical Report - Demonstration, {{BINDT MT2017}} ,05/Sept/2017
http://www.bindt.org/events/Materials-Testing-2017/
Bibtex
Author : Rikesh Patel
Title : {{SKED}}-{{In}}-a-Box
In : Technical Report - Demonstration, {{BINDT MT2017}} -
Address :
Date : 05/Sept/2017
Don Milesh Pieris - Non-{{Destructive Evaluation}} of {{Additive Layer Manufactured Component Microstructure}}
Technical Report - Oral, Rolls {{Royce EngD Conference}} 2017 ,01/Nov/2017
Bibtex
Author : Don Milesh Pieris
Title : Non-{{Destructive Evaluation}} of {{Additive Layer Manufactured Component Microstructure}}
In : Technical Report - Oral, Rolls {{Royce EngD Conference}} 2017 -
Address :
Date : 01/Nov/2017
Rikesh Patel - {{SKED}}-{{In}}-a-Box
Technical Report - Demonstration, Rolls {{Royce EngD Conference}} 2017 ,01/Nov/2017
Bibtex
Author : Rikesh Patel
Title : {{SKED}}-{{In}}-a-Box
In : Technical Report - Demonstration, Rolls {{Royce EngD Conference}} 2017 -
Address :
Date : 01/Nov/2017
Rikesh Patel - {{SKED}}-in-a-Box: A Simple and Inexpensive Laser Ultrasound Rough Surface Detector System
Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} ,23/Nov/2017
https://www.iopconferences.org/iop/frontend/reg/thome.csp?pageID=678826&eventID=1164&CSPCHD=000001000000AloUgmZfeAXt5VsIDeO4NDxg9AYd5_fuJaW_4h
Bibtex
Author : Rikesh Patel
Title : {{SKED}}-in-a-Box: A Simple and Inexpensive Laser Ultrasound Rough Surface Detector System
In : Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} -
Address :
Date : 23/Nov/2017
Don Milesh Pieris - Detection of the Manipulation of Additively Manufactured Component Microstructure Using Spatially Resolved Acoustic Spectroscopy
Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} ,23/Nov/2017
https://www.iopconferences.org/iop/frontend/reg/thome.csp?pageID=678826&eventID=1164&CSPCHD=000001000000AloUgmZfeAXt5VsIDeO4NDxg9AYd5_fuJaW_4h
Bibtex
Author : Don Milesh Pieris
Title : Detection of the Manipulation of Additively Manufactured Component Microstructure Using Spatially Resolved Acoustic Spectroscopy
In : Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} -
Address :
Date : 23/Nov/2017
Paul Dryburgh - Detecting and Characterising Subsurface Porosity in {{Selective Laser Melting}} ({{SLM}}) Components Using Laser Ultrasound
Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} ,23/Nov/2017
https://www.iopconferences.org/iop/frontend/reg/thome.csp?pageID=678826&eventID=1164&CSPCHD=000001000000AloUgmZfeAXt5VsIDeO4NDxg9AYd5_fuJaW_4h
Bibtex
Author : Paul Dryburgh
Title : Detecting and Characterising Subsurface Porosity in {{Selective Laser Melting}} ({{SLM}}) Components Using Laser Ultrasound
In : Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} -
Address :
Date : 23/Nov/2017
Wenqi Li - Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy
Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} ,23/Nov/2017
https://www.iopconferences.org/iop/frontend/reg/thome.csp?pageID=678826&eventID=1164&CSPCHD=000001000000AloUgmZfeAXt5VsIDeO4NDxg9AYd5_fuJaW_4h
Bibtex
Author : Wenqi Li
Title : Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy
In : Technical Report - Oral, {{IOP Optics}}+{{Ultrasound IV}} -
Address :
Date : 23/Nov/2017
P Dryburgh - {{RCNDE}}: {{Laser}} Ultrasound for Additive Manufacturing Defects
Technical Report - Poster, {{RCNDE Technology Transfer Event}} 2018
Bibtex
Author : P Dryburgh
Title : {{RCNDE}}: {{Laser}} Ultrasound for Additive Manufacturing Defects
In : Technical Report - Poster, {{RCNDE Technology Transfer Event}} 2018 -
Address :
Date :
Don M Pieris - {{RCNDE}}: {{Observing Defects}} and {{Microstructure}} in {{Additively Manufactured Components}}
Technical Report - Poster, {{RCNDE Technology Transfer Event}} 2018
Bibtex
Author : Don M Pieris
Title : {{RCNDE}}: {{Observing Defects}} and {{Microstructure}} in {{Additively Manufactured Components}}
In : Technical Report - Poster, {{RCNDE Technology Transfer Event}} 2018 -
Address :
Date :
Adam Clare - Finding and {{Fixing Defects}} in {{Metal Powder Bed Processes}}
Technical Report - Oral, 1st {{Manufacturing}} Using {{Advanced Powder Processes Conference}} ({{MAPP}})
https://mapp.ac.uk/events/mapp-1st-international-conference
Bibtex
Author : Adam Clare
Title : Finding and {{Fixing Defects}} in {{Metal Powder Bed Processes}}
In : Technical Report - Oral, 1st {{Manufacturing}} Using {{Advanced Powder Processes Conference}} ({{MAPP}}) -
Address :
Date :
Adam Clare - Healing {{Defects}} within {{Powder Bed Fabrication}}
Technical Report - Oral, {{TMS}} 147th {{Annual Meeting}} and {{Exhibition}} ({{TMS2018}})
https://www.tms.org/tms2018
Bibtex
Author : Adam Clare
Title : Healing {{Defects}} within {{Powder Bed Fabrication}}
In : Technical Report - Oral, {{TMS}} 147th {{Annual Meeting}} and {{Exhibition}} ({{TMS2018}}) -
Address :
Date :
Adam Clare, Rikesh Patel - {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
Technical Report - Oral, {{RCNDE Research Review Meeting}} ,02/May/2018
Bibtex
Author : Adam Clare, Rikesh Patel
Title : {{RCNDE}}: {{NDE}} for {{Additive Manufacturing Research Review}}
In : Technical Report - Oral, {{RCNDE Research Review Meeting}} -
Address :
Date : 02/May/2018
Wenqi Li - Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): Texture and Microstructure Characterisation
Technical Report - Oral, World {{Federation}} of {{NDE Centers Short Course}} 2017
https://www.qndeprograms.org/events/44th-annual-review-of-progress-in-quantitative-nondestructive-evaluation/
Bibtex
Author : Wenqi Li
Title : Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): Texture and Microstructure Characterisation
In : Technical Report - Oral, World {{Federation}} of {{NDE Centers Short Course}} 2017 -
Address :
Date :
Rikesh Patel - Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) and {{NDE}} for {{Additively}} Manufactured Components
Technical Report - Oral, {{BINDT Aerospace Event}} 2018 ,10/Apr/2018
http://www.bindt.org/events/PastEvents/aerospace-workshop-2018-past/
Bibtex
Author : Rikesh Patel
Title : Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) and {{NDE}} for {{Additively}} Manufactured Components
In : Technical Report - Oral, {{BINDT Aerospace Event}} 2018 -
Address :
Date : 10/Apr/2018
Paul Dryburgh - Targeted {{Rework}} of {{Powder Bed Fusion Additive Manufacturing}}
Technical Report - Oral, 19th {{International Symposium}} on {{Laser Precision Microfabrication}}
http://www.jlps.gr.jp/en/proc/lpm/18/
Bibtex
Author : Paul Dryburgh
Title : Targeted {{Rework}} of {{Powder Bed Fusion Additive Manufacturing}}
In : Technical Report - Oral, 19th {{International Symposium}} on {{Laser Precision Microfabrication}} -
Address :
Date :
R Patel - Non-Destructive Evaluation of Additively Manufactured Materials –towards Online Inspection for Selective Laser Melting
Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) ,09/July/2018
http://lu2018.iopconfs.org/home
Bibtex
Author : R Patel
Title : Non-Destructive Evaluation of Additively Manufactured Materials –towards Online Inspection for Selective Laser Melting
In : Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) -
Address :
Date : 09/July/2018
Rikesh Patel - {{RCNDE}}: {{Spatially}} Resolved Acoustic Spectroscopy ({{SRAS}}) Inspection on as-Deposited Selective Laser Melted ({{SLM}}) Builds
Technical Report - Poster, {{RCNDE Early Stage Researchers Event}} 2018
Bibtex
Author : Rikesh Patel
Title : {{RCNDE}}: {{Spatially}} Resolved Acoustic Spectroscopy ({{SRAS}}) Inspection on as-Deposited Selective Laser Melted ({{SLM}}) Builds
In : Technical Report - Poster, {{RCNDE Early Stage Researchers Event}} 2018 -
Address :
Date :
Wenqi Li - {{RCNDE}}: {{Orientation Imaging}} of {{Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy}}
Technical Report - Poster, {{RCNDE Early Stage Researchers Event}} 2018
Bibtex
Author : Wenqi Li
Title : {{RCNDE}}: {{Orientation Imaging}} of {{Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy}}
In : Technical Report - Poster, {{RCNDE Early Stage Researchers Event}} 2018 -
Address :
Date :
P Dryburgh - Making and Utilising Online Measurements by Laser Ultrasound in Powder Bed Additive Manufacturing
Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) ,09/July/2018
http://lu2018.iopconfs.org/home
Bibtex
Author : P Dryburgh
Title : Making and Utilising Online Measurements by Laser Ultrasound in Powder Bed Additive Manufacturing
In : Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) -
Address :
Date : 09/July/2018
W Li - Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy
Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) ,09/July/2018
http://lu2018.iopconfs.org/home
Bibtex
Author : W Li
Title : Orientation Imaging of Polysilicon Grains Using Spatially Resolved Acoustic Spectroscopy
In : Technical Report - Oral, 6th {{International Symposium}} on {{Laser Ultrasonics}} ({{LU2018}}) -
Address :
Date : 09/July/2018
Rikesh Patel - Laser Ultrasound in Additive Manufacture: Overcoming the Rough Surface Challenge
Technical Report - Oral, World {{Federation}} of {{NDE Centers Short Course}} 2018
https://register.extension.iastate.edu/qnde/program/wfnde-short-course
Bibtex
Author : Rikesh Patel
Title : Laser Ultrasound in Additive Manufacture: Overcoming the Rough Surface Challenge
In : Technical Report - Oral, World {{Federation}} of {{NDE Centers Short Course}} 2018 -
Address :
Date :
Rikesh Patel - Non-{{Destructive Evaluation}} of {{Additively Manufactured Materials}} - towards Online Inspection for {{Selective Laser Melting}}
Technical Report - Oral, 45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{45QNDE}})
https://register.extension.iastate.edu/qnde
Bibtex
Author : Rikesh Patel
Title : Non-{{Destructive Evaluation}} of {{Additively Manufactured Materials}} - towards Online Inspection for {{Selective Laser Melting}}
In : Technical Report - Oral, 45th {{Annual Review}} of {{Progress}} in {{Quantitative Nondestructive Evaluation}} ({{45QNDE}}) -
Address :
Date :
Paul Dryburgh - Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) for Additive Manufacturing
Technical Report - Oral, 29th {{Annual International Solid Freeform Fabrication Symposium}} ({{SFF2018}})
http://sffsymposium.engr.utexas.edu/
Bibtex
Author : Paul Dryburgh
Title : Spatially {{Resolved Acoustic Spectroscopy}} ({{SRAS}}) for Additive Manufacturing
In : Technical Report - Oral, 29th {{Annual International Solid Freeform Fabrication Symposium}} ({{SFF2018}}) -
Address :
Date :
Paul Dryburgh - The Use of a Laser to Monitor and Correct in {{SLM}}
Technical Report - Oral, 10th {{CIRP Conference}} on {{Photonic Technologies}} ({{LANE2018}}) ,04/Sept/2018
https://www.lane-conference.org/
Bibtex
Author : Paul Dryburgh
Title : The Use of a Laser to Monitor and Correct in {{SLM}}
In : Technical Report - Oral, 10th {{CIRP Conference}} on {{Photonic Technologies}} ({{LANE2018}}) -
Address :
Date : 04/Sept/2018
Don Pieris - Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection
Technical Report - Oral, {{BINDT}} ,10/Sept/2018
http://www.bindt.org/events/PastEvents/ndt-2018/
Bibtex
Author : Don Pieris
Title : Spatially Resolved Acoustic Spectroscopy Additive Manufacturing – towards Online Inspection
In : Technical Report - Oral, {{BINDT}} -
Address :
Date : 10/Sept/2018
Wenqi Li - Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): A {{NDE}} Technique for Materials Characterisation Based on Laser Ultrasonic
Technical Report - Oral, Progress in {{Photoacoustic}} \& {{Photothermal Phenomena Focus}} on {{Biomedical}}, {{Nanoscale}}, {{NDE}} and {{Thermophysical Phenomena}} and {{Technologies}} ({{PAPT2018}}) ,11/Sept/2018
http://www.sbai.uniroma1.it/conferenze/photoacoustic-photothermal/
Bibtex
Author : Wenqi Li
Title : Spatially Resolved Acoustic Spectroscopy ({{SRAS}}): A {{NDE}} Technique for Materials Characterisation Based on Laser Ultrasonic
In : Technical Report - Oral, Progress in {{Photoacoustic}} \& {{Photothermal Phenomena Focus}} on {{Biomedical}}, {{Nanoscale}}, {{NDE}} and {{Thermophysical Phenomena}} and {{Technologies}} ({{PAPT2018}}) -
Address :
Date : 11/Sept/2018