Contents
- 1 UBC PUBLICATIONS on LASER ULTRASONICS
- 2 VIDEO
- 3 NEWSLETTERS
- 4 CONFERENCES & WORKSHOP PRESENTATION
- 5 2016
- 6 2015
- 7 2014
- 7.1 MATEC2014: Application of laser ultrasonics to monitor microstructure evolution in Inconel 718 superalloy
- 7.2 WSUBC2014: Integrated model for the prediction of microstructure in the HAZ for X80 linepipe
- 7.3 ARCELOR-MITTAL-DOFASCO 2014: Laser Ultrasonics as an Innovative Sensor for Microstructure Control
- 7.4 AMPEL2014 :Evaluation of microstructure parameters in steels from the properties of laser-generated ultrasonic waves
- 7.5 MMSMat 2014: A revolution in the field of metallography aided by the Laser Ultrasonic technology
- 7.6 TRANSCANADA2014: A revolution in the field of metallography aided by the Laser Ultrasonic technology
- 8 2013
- 8.1 MS&T 2013:In-situ measurements of microstructure evolution in advanced steels using laser ultrasonics
- 8.2 LUM2013: 1st Workshop On Laser Ultrasonics
- 8.3 AHSS 2013: Microstructure Engineering of Dual-Phase Steels
- 8.4 Rex&GG 2013: In-situ measurements of grain growth and recrystallization by laser ultrasonics
- 8.5 GWPS 2013: The Application of Laser Ultrasonics to Welding Simulations on a Gleeble 3500
- 8.6 BAO STEEL 2013: Laser ultrasonics for in-situ monitoring of microstructure evolution in steels
- 8.7 JFE STEEL 2013: Laser ultrasonic measurements of microstructure evolution in steels
- 8.8 LU2013: Laser ultrasonic measurements of microstructure evolution in steels
- 8.9 PCAMM 2013: Simulation of ultrasound propagation in anisotropic polycrystalline media
- 8.10 EVRAZ 2013: Laser Ultraonics for In situ Monitoring of microstructure evolution in steels: Application to Welding simulation
- 9 2012
- 10 ANIMATED GIF
- 11 REFERENCES ON THE TOPICS
UBC PUBLICATIONS on LASER ULTRASONICS
Continuous measurements of recrystallization and grain growth in cobalt super alloys, M. Keyvani , T. Garcin , D. Fabrègue , M. Militzer , K. Yamanaka , A. Chiba, in Met Mater Trans A, 2017 DOI: 10.1007/s11661-017-4027-8 (link)
Reverse austenite transformation and grain growth in a low-carbon steel, Thomas Garcin, Keiji Ueda, Matthias Militzer,under review in Met Mater Trans A, 2016 doi:10.1007/s11661-016-3855-2 (link)
In-situ laser ultrasonic measurement of the hcp to bcc transformation in commercially pure titanium, A Shinbine, T Garcin, C Sinclair, Materials Characterization 117, 57-64, 2016 (link)
In-situ laser ultrasonic grain size measurement in superalloy INCONEL 718, T Garcin, JH Schmitt, M Militzer, Journal of Alloys and Compounds 670, 329-336, 2016 (link)
Microstructure model for the heat-affected zone of X80 linepipe steel, T Garcin, M Militzer, WJ Poole, L Collins, Materials Science and Technology, 1-14, 2016 (link)
In-situ evaluation of metallurgical phenomena using laser generated ultrasonic waves Thomas GARCIN and Matthias MILITZER , Conference on Solid-Solid Phase Transformation in Inorganic Materials, Whistler, BC, Canada (Jul 2015) (link)
Application of laser ultrasonics to monitor microstructure evolution in Inconel 718 superalloy, T Garcin, JH Schmitt, M Militzer, MATEC Web of Conferences 14, 07001, 2014 (link)
Microstructure Engineering of Dual-Phase Steels M. Militzer, W.J. Poole, T. Garcin, M. Kulakov and B. Zhu, International Symposium On New Development on Advanced High Strength Sheet Steel, Colorado, US, (Jul 2013) (link)
In Situ Measurements of Grain Growth and Recrystallization by Laser Ultrasonics, M Militzer, T Garcin, WJ Poole, Materials Science Forum 753, 25-30, 2013 (link)
Laser ultrasonics for in-situ monitoring of microstructure evolution in steels MILITZER Matthias, GARCIN Thomas, KULAKOV Mykola and POOLE Warren, Baosteel Biennial Academic Conference, Beijing, China (Jul 2013) (Link)
VIDEO
DSI 2014: New potential of Laser Ultrasonics for Steel applications using the LUMET and Gleeble Technology
Thomas Garcin : Special talk at the GLEEBLE company on the potential of Laser Ultrasonics for Steel applications Open Video
NEWSLETTERS
UBC2012: Redefining metal alloy processing and Canada’s role in the metallurgical industry
DSI 2013: Gleeble Systems help forge new fields of research at the University of British Columbia
CONFERENCES & WORKSHOP PRESENTATION
2016
UBC, Tohoku University Workshop of Advanced Materials and Process Engineering
August 22-22, 2016 , Vancouver, BC, Canada Link to Document
Rex&GG: 6th International Conference on Recrystallization and Grain Growth
July 17–21, 2016 ● Omni William Penn Hotel ● Pittsburgh, Pennsylvania, USA Link to Document
LU2016: 5th International Symposium on Laser-Ultrasonics and Advanced Sensing
Invited Talk at the Johannes Kepler University in Linz, from July 4th to 8th, 2016 Link to Document
LUM2016: 2nd Workshop On Laser Ultrasonics
2nd International Workshop on Laser Ultrasonics for Metallurgy, hosted by the University of British Columbia (UBC) in Vancouver Canada on April 26, 27th 2016 LUM2016
2015
PTM2015: In-situ evaluation of metallurgical phenomena using laser generated ultrasonic waves
Thomas GARCIN and Matthias MILITZER , Conference on Solid-Solid Phase Transformation in Inorganic Materials, Whistler, BC, Canada (Jul 2015) link to document
MMSMat 2015: Application of laser ultrasonics to monitor microstructure evolution in Inconel 718 superalloy
Thomas Garcin 1, Jean Hubert Schmitt 2, Matthias Militzer , Invited seminar at the MMSMat Laboratory, Ecole Central, Paris, France, (Jan 2015) Link to document
2014
MATEC2014: Application of laser ultrasonics to monitor microstructure evolution in Inconel 718 superalloy
Thomas Garcin 1 , Jean-Hubert Schmitt 2,a , and Matthias Militzer ,MATEC Web of Conferences 14, 07001 (2014) DOI: 10.1051/matecconf/20141407001 c Owned by the authors, published by EDP Sciences, 2014Link to document
WSUBC2014: Integrated model for the prediction of microstructure in the HAZ for X80 linepipe
Workshop on Steel Research in UBC materials Engeneering Department, Vancouver, Canada (Sept 2014) Link to document
ARCELOR-MITTAL-DOFASCO 2014: Laser Ultrasonics as an Innovative Sensor for Microstructure Control
T. GARCIN, M. MILITZER, W.J. POOLE, C.W. SINCLAIR, J. GAO AMD Highlight, Arcelor Mittal Dofasco (Sept 2014) Link to document
AMPEL2014 :Evaluation of microstructure parameters in steels from the properties of laser-generated ultrasonic waves
Thomas Garcin, Matthias Militzer, Chad W. Sinclair, Warren J. Poole, Synergy day at the Advanced Materials and Process Engineering Laboratory, May 2014, Vancouver, BC, Canada Link to document
MMSMat 2014: A revolution in the field of metallography aided by the Laser Ultrasonic technology
Thomas Garcin, Matthias Militzer , Warren J. Poole ” ” Invited seminar at the MMSMat Laboratory, Ecole Central, Paris, France, (Jan 2014) Link to document
TRANSCANADA2014: A revolution in the field of metallography aided by the Laser Ultrasonic technology
Thomas Garcin, Matthias Militzer , Warren J. Poole ” Invited seminar at the Transcanada Office, Calgary, (AB) Canada, Feb 2014, Also present to the seminar : EVRAZ north America, Regina, Canada. Link to document
2013
MS&T 2013:In-situ measurements of microstructure evolution in advanced steels using laser ultrasonics
Thomas Garcin 1 , Matthias Militzer 1 ,Warren J. Poole 1 , Material Science & Technology Conference, (Oct 2013) Link to document
LUM2013: 1st Workshop On Laser Ultrasonics
1st International Workshop on Laser Ultrasonics for Metallurgy, hosted by the University of British Columbia (UBC) in Vancouver Canada from November 13-14th, 2013 Link to document
AHSS 2013: Microstructure Engineering of Dual-Phase Steels
M. Militzer, W.J. Poole, T. Garcin, M. Kulakov and B. Zhu, International Symposium On New Development on Advanced High Strength Sheet Steel, Colorado, US, (Jul 2013) Link to document
Rex&GG 2013: In-situ measurements of grain growth and recrystallization by laser ultrasonics
Matthias Militzer, Thomas Garcin and Warren J. Poole, 5th International Conference on Recrystallization and Grain Growth (ReX&GG V), May 5-10, 2013, Sydney, Australia Link to document
GWPS 2013: The Application of Laser Ultrasonics to Welding Simulations on a Gleeble 3500
Thomas Garcin, Matthias Militzer, Warren J. Poole, Gleeble Symposium , Lyon, France, (Jul 2013) Link to document
BAO STEEL 2013: Laser ultrasonics for in-situ monitoring of microstructure evolution in steels
MILITZER Matthias, GARCIN Thomas, KULAKOV Mykola and POOLE Warren, Baosteel Biennial Academic Conference, Beijing, China (Jul 2013) Link to document
JFE STEEL 2013: Laser ultrasonic measurements of microstructure evolution in steels
Thomas Garcin, Matthias Militzer , Warren J. Poole, Invited seminar at the JFE Steel Company, Tokyo, Japan, (Jun 2013) Link to document
LU2013: Laser ultrasonic measurements of microstructure evolution in steels
Thomas Garcin, Matthias Militzer , Warren J. Poole, International Conference on Laser Ultrasonics, Yokohama (JAPAN) (Jun 2013) Link to document
PCAMM 2013: Simulation of ultrasound propagation in anisotropic polycrystalline media
Thomas Garcin, Quentin Puydt, Warren J. Poole, Matthias Militzer, Pacific Centre For Advanced Materials and Microstructure, Vancouver, Canada (Feb 2013) Link to document
EVRAZ 2013: Laser Ultraonics for In situ Monitoring of microstructure evolution in steels: Application to Welding simulation
Thomas Garcin, Invited seminar at the EVRAZ North America, Regina, Canada, April 2013 Link to document
2012
WSUBC2012: Laser Ultrasonics for Steel Characterization
Workshop on Steel Research in UBC materials Engeneering Department, Vancouver, Canada (Sept 2012) Link to document
MS&T 2012:Laser ultrasonics as a new research tool for the in-situ characterization of metallurgical processes
Thomas Garcin 1 , Matthias Militzer 1 , Andre Moreau 2 ,Warren J. Poole 1 , Material Science & Technology Conference, (Oct 2012) Link to document
ANIMATED GIF
Demo LUMFILE software
Analysis of LUMet data for the determination of austenite grain size in steel using the LUMFILE Software from CTOME.
Wave propagation in cylinder geometry
Finite Element Simulation of ultrasonic pulse propagation in a single crystal sample with cylinder geometry.
Wave Propagation in polycrystalline materials
FEM Simulation of a wave propagating in a polycrystalline sample of Iron with a mean grain size of 50 um. The microstructure is generated using a Voronoi method and a crystallographic orientation is allocated to each grains based on the random selection of vector in the Rodrigues space.
Laser ultrasonic measurement of hot compression testing in Gleeble
This is a breakthrough in the laser ultrasonic technology. LUMet is now capable of investigating dynamic processes occuring during deformation at hight temperature in Gleeble.
REFERENCES ON THE TOPICS
- Artymowicz, D, B Hutchinson, and M Nogues. 2002. “Effects of Crystallographic Texture on Ultrasonic Wave Velocities in Steels.” Materials Science and Technology 18: 1142–1146.
- Aussel, J D, and J P Monchalin. 1989. “Precision Laser-Ultrasonic Velocity Measurement and Elastic Constant Determination.” Ultrasonics 27 (3): 165–177.
- Aussel, J.-D., and J.-P. Monchalin. 1988. “Measurement of Ultrasound Attenuation by Laser-Ultrasonics.” Industrial Materials Research Institute. IGM88AP-40 (CNRC 28913).
- Azizi-Alizamini, H, M Militzer, and W J Poole. 2007. “A Novel Technique for Developing Bimodal Grain Size Distributions in Low Carbon Steels.” Scripta Materialia 57 (12): 1065–1068. doi:10.1016/j.scriptamat.2007.08.035. http://www.sciencedirect.com/science/article/pii/S135964620700632X.
- Bhatia, A B. 1959. “Scattering of High-Frequency Sound Waves in Polycrystalline Materials.” The Journal of the Acoustical Society of America 31 (1): 16–23.
- Blouin, A, S E Kruger, D Lévesque, and J P Monchalin. 2008. “Applications of Laser-Ultrasonics to the Automotive Industry.” 17th World Conference on Nondestructive Testing.
- Bolognini, S, and A Moreau. 2003. “Ultrasonic Absorption in Ultra-Low Carbon Steel.” Journal of Applied Physics 94 (6): 3771–3780.
- Charleux, M, W Poole, M Militzer, and A Deschamps. 2001. “Precipitation Behavior and Its Effect on Strengthening of an HSLA-Nb/Ti Steel.” Metallurgical and Materials Transactions A 32 (7): 1635–1647. http://dx.doi.org/10.1007/s11661-001-0142-6.
- Coronel, V F, and D N Beshers. 1988. “Magnetomechanical Damping in Iron.” Journal of Applied Physics 64 (4): 2006–2015.
- Dewhurst, R J, and Q Shan. 1999. “Optical Remote Measurement of Ultrasound.” Measurement Science and Technology 10 (11): R139.
- Dubois, M, A Moreau, A Dawson, M Militzer, and J F Bussiere. 1998. “Laser Ultrasonic Measurement of Microstructure Evolution during Metals Processing.” RTO AVT Workshop on “Intelligent Processing of High Performance Materials” 9.
- Dubois, M, M Viens, A Moreau, and K Jen, C. 1996. “Ultrasonic Attenuation Measurements at 300MHz.” Review of Progress in Quantitatibe Nondestructive Evaluation 15: 1439–1446.
- Dubois, Marc, Franck Enguehard, and Lionel Bertrand. 1994. “Analytical One-Dimensional Model to Study the Ultrasonic Precursor Generated by a Laser.” Physical Review E 50 (2): 1548.
- Dubois, Marc, Matthias Militzer, André Moreau, and Jean F Bussière. 2000. “A New Technique for the Quantitative Real-Time Monitoring of Austenite Grain Growth in Steel.” Scripta Materialia 42 (9): 867–874.
- Esmaeili, S, D J Lloyd, and W J Poole. 2003. “Modeling of Precipitation Hardening for the Naturally Aged Al-Mg-Si-Cu Alloy AA6111.” Acta Materialia 51 (12): 3467–3481. doi:10.1016/S1359-6454(03)00167-8. http://www.sciencedirect.com/science/article/pii/S1359645403001678.
- Fazeli, F, W J Poole, and C W Sinclair. 2008. “Modeling the Effect of Al3Sc Precipitates on the Yield Stress and Work Hardening of an Al–Mg–Sc Alloy.” Acta Materialia 56 (9): 1909–1918. doi:10.1016/j.actamat.2007.12.039. http://www.sciencedirect.com/science/article/pii/S1359645407008403.
- Fu, L S, and Y C Sheu. 1984. “Ultrasonic Wave Propagation in Two-Phase Media: Spherical Inclusions.” Composite Structures 2 (4): 289–303.
- Ghoshal, G, and J A Turner. 2009. “Numerical Model of Longitudinal Wave Scattering in Polycrystals.” Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on 56 (7): 1419–1428.
- Granato, A, and K Lucke. 1956. “Theory of Mechanical Damping Due to Dislocations.” Journal of Applied Physics 27 (6): 583–593.
- Gür, C Hakan, and B Orkun Tuncer. 2005. “Characterization of Microstructural Phases of Steels by Sound Velocity Measurement.” Materials Characterization 55 (2): 160–166.
- Gusev, V E, and A A Karabutov. 1993. Laser Optoacoustics. New York : American Institute of Physics.
- Hirsekorn, S. 1985. “Ultrasonic Scattering in Textured Polycrystals.” Diffuision Par Des Inhomogénéités 2 (1): 259–261.
- Hirsekorn, Sigrun. 1982. “The Scattering of Ultrasonic Waves by Polycrystals.” The Journal of the Acoustical Society of America 72 (3): 1021–1031.
- ———. 1983. “The Scattering of Ultrasonic Waves by Polycrystals. II. Shear Waves.” The Journal of the Acoustical Society of America 73 (4): 1160–1163.
- Hutchinson, B, E-L. Ulmgren, and L Carlson. “Application of Laser Ultrasonics to Studies of Recrystallisation and Grain Growth in Metals.” In 1st International Symposium on Laser Ultrasonics, Science, Technology and Applications.
- Ing, R K, and J.-P. Monchalin. 1991. “Broadband Optical Detection of Ultrasound by Two-Wave Mixing in a Photorefractive Crystal.” Applied Physics Letters 59 (25): 3233–3235. doi:10.1063/1.105742. http://link.aip.org/link/?APL/59/3233/1.
- Karabutov, A, A Devichensky, A Ivochkin, M Lyamshev, I Pelivanov, U Rohadgi, V Solomatin, and M Subudhi. 2008. “Laser Ultrasonic Diagnostics of Residual Stress.” Ultrasonics 48 (6-7): 631–635.
- Kenderian, Shant, Tobias P Berndt, Robert E Green, and B Boro Djordjevic. 2003. “Ultrasonic Monitoring of Dislocations during Fatigue of Pearlitic Rail Steel.” Materials Science and Engineering A 348 (1-2): 90–99.
- Kielczynski, P J, A Moreau, and J F Bussiere. 1994. “Determination of Texture Coefficients in Hexagonal Polycrystalline Aggregates with Orthorhombic Symmetry Using Ultrasounds.” J. Acoust.. Soc. Am. 95 (2): 813–827.
- Kruger, S E, G Lamouche, and J P Monchalin. 2005. “On Line Monitoring of Wall Thickness and Austenite Grain Size on a Seamless Tubing Production Line at the Timken Company.” AISTech Proceedings 2: 553–560.
- Kruger, S E, A Moreau, C Bescond, and J P Monchalin. 2004. “Real Time Sensing of Metallurgical Transfomations by Laser Ultrasound.” Proceedings of the 16th World Conference in Nondestructive Testing: Montreal 2004.
- Kruger, S E, A Moreau, M Militzer, and T Biggs. 2003. “In-Situ, Laser-Ultrasonic Monitoring of the Recrystallization of Aluminum Alloys.” Materials Science Forum vol. 426 – (THERMEC’2003): pp. 483–488.
- Kruger, S E, A Moreau, and J P Monchalin. “Laser-Ultrasonic Monitoring of Metallurgcal Transformations in Advanced Ultra-High Strengh Steels.” In 1st International Symposium on Laser Ultrasonics, Science, Technology and Applications.
- Kruger, Silvio E, and Edward B Damm. 2006. “Monitoring Austenite Decomposition by Ultrasonic Velocity.” Materials Science and Engineering: A 425 (1-2): 238–243.
- Kuzucu, V, M Aksoy, M H Korkut, and M M Yildirim. 1997. “The Effect of Niobium on the Microstructure of Ferritic Stainless Steel.” Materials Science and Engineering: A 230 (1–2): 75–80. doi:10.1016/S0921-5093(97)00010-5. http://www.sciencedirect.com/science/article/pii/S0921509397000105.
- Lamouche, Guy, Stéphane Bolognini, and Silvio E Kruger. 2004. “Influence of Steel Heat Treatment on Ultrasonic Absorption Measured by Laser Ultrasonics.” Materials Science and Engineering A 370 (1-2): 401–406.
- Liu, I, and C Yang. 2008. “Laser Ultrasound Technique for Nondestructive Characterization of Material Properties in Hydrogen-Charged Zircaloy Tubes.” 1st International Symposium on Laser Ultrasonics Science, T.
- Maalekian, M, R Radis, M Militzer, A Moreau, and W J Poole. 2012. “In Situ Measurement and Modelling of Austenite Grain Growth in a Ti/Nb Microalloyed Steel.” Acta Materialia 60 (3): 1015–1026. doi:10.1016/j.actamat.2011.11.016. http://www.sciencedirect.com/science/article/pii/S1359645411008068.
- Malfliet, A, W Van den Broek, F Chassagne, J.-D. Mithieux, B Blanpain, and P Wollants. 2011. “Fe3Nb3N Precipitates of the Fe3W3C Type in Nb Stabilized Ferritic Stainless Steel.” Journal of Alloys and Compounds 509 (40): 9583–9588. doi:10.1016/j.jallcom.2011.03.155. http://www.sciencedirect.com/science/article/pii/S0925838811007742.
- Malfliet, A, F Verhaeghe, F Chassagne, J.-D. Mithieux, B Blanpain, and P Wollants. 2010. “Precipitation in Fe–15Cr–1Nb Alloys after Oxygenation.” Acta Materialia 58 (11): 3832–3841. doi:10.1016/j.actamat.2010.04.002. http://www.sciencedirect.com/science/article/pii/S1359645410002089.
- Man, Chi-Sing, Roberto Paroni, Yu Xiang, and Edward A Kenik. 2006. “On the Geometric Autocorrelation Function of Polycrystalline Materials.” Journal of Computational and Applied Mathematics 190 (1-2): 200–210.
- Monchalin, J P. 1986. “Optical Detection of Ultrasound.” IEEE Trans. Ultrasonics, Ferroelectrics, Frequency Control UFCC-33: 485–499.
- Monchalin, J P, R Heon, P Bouchard, and C Padioleau. 1989. “Broadband Optical Detection of Ultrasound by Optical Sideband Stripping with a Confocal Fabry–Perot.” Applied Physics Letters 55 (16): 1612–1614.
- Monchalin, Jean Pierre. 2004. “Laser-Ultrasonics: From the Laboratory to Industry.” Review of Quantitative Nondestructive Evaluation (AIP) 23: 3–31.
- Monchalin, Jean-Pierre. 1985. “Optical Detection of Ultrasound at a Distance Using a Confocal Fabry–Perot Interferometer.” Applied Physics Letters 47 (1): 14–16. doi:10.1063/1.96411. http://link.aip.org/link/?APL/47/14/1.
- Moreau, A, C Bescond, S Bolognini, M Lord, S E Kruger, and C S Man. 2005. “Inline Measurements of Texture and Recrystallization on Aluminum Alloys.” Automation & Control/ Advanced OnLine Metallurgical Models/Sensors Materials: 3–10.
- Moreau, A, D Lévesque, M Lord, M Dubois, J P Monchalin, C Padioleau, and J F Bussière. 2002. “On-Line Measurement of Texture, Thickness and Plastic Strain Ratio Using Laser-Ultrasound Resonance Spectroscopy.” Ultrasonics 40 (10): 1047–1056.
- Moreau, A, M Lord, D Lévesque, M Dubois, and J F Bussière. 2000. “Laser-Ultrasonic Absorption Measurements in Low Carbon Steels.” Journal of Alloys and Compounds 310 (1-2): 427–431.
- Nicoletti, D, and D Kasper. 1994. “Ultrasonic Attenuation Based on the Roney Generalized Theory and Multiple Power-Law Grain-Size Distributions.” IEEE Trans. Ultrasonics, Ferroelectrics, Frequency Control 41 (1): 144–149.
- Nicoletti, Denise, and Aran Anderson. 1997. “Determination of Grain-Size Distribution from Ultrasonic Attenuation: Transformation and Inversion.” The Journal of the Acoustical Society of America 101 (2): 686–689.
- Nicoletti, Denise, Nihat Bilgutay, and Banu Onaral. 1992. “Power-Law Relationships between the Dependence of Ultrasonic Attenuation on Wavelength and the Grain Size Distribution.” The Journal of the Acoustical Society of America 91 (6): 3278–3284.
- Pan, Y, C Rossignol, and B Audoin. 2004. “Acoustic Waves Generated by a Laser Line Pulse in Cylinders; Application to the Elastic Constants Measurement.” J. Acoust.. Soc. Am. 115 (4): 1537–1545.
- Papadakis, Emmanuel P. 1961. “Grain-Size Distribution in Metals and Its Influence on Ultrasonic Attenuation Measurements.” The Journal of the Acoustical Society of America 33 (11): 1616–1621.
- Park, J S, and Y K Lee. 2007a. “Determination of Nb(C, N) Dissolution Temperature by Electrical Resistivity Measurement in a Low-Carbon Microalloyed Steel.” Scripta Materialia 56 (3): 225–228. doi:10.1016/j.scriptamat.2006.10.007. http://www.sciencedirect.com/science/article/pii/S1359646206007342.
- ———. 2007b. “Nb(C,N) Precipitation Kinetics in the Bainite Region of a Low-Carbon Nb-Microalloyed Steel.” Scripta Materialia 57 (2): 109–112. doi:10.1016/j.scriptamat.2007.03.041. http://www.sciencedirect.com/science/article/pii/S135964620700228X.
- Poole, W J, D J Lloyd, and J D Embury. 1997. “The Effect of Natural Ageing on the Evolution of Yield Strength during Artificial Ageing for Al-Mg-Si-Cu Alloys.” Materials Science and Engineering: A 234–236 (0): 306–309. doi:10.1016/S0921-5093(97)00192-5. http://www.sciencedirect.com/science/article/pii/S0921509397001925.
- Raeisinia, B, W J Poole, and D J Lloyd. 2006. “Examination of Precipitation in the Aluminum Alloy AA6111 Using Electrical Resistivity Measurements.” Materials Science and Engineering: A 420 (1–2): 245–249. doi:10.1016/j.msea.2006.01.042. http://www.sciencedirect.com/science/article/pii/S0921509306001201.
- Rajendran, V, S Muthu Kumaran, T Jayakumar, P Palanichamy, P Shankar, and Baldev Raj. 2009. “Microstructure and Ultrasonic Behaviour on Thermal Heat-Treated Al-Li 8090 Alloy.” Journal of Alloys and Compounds 478 (1-2): 147–153.
- Reynolds, W N, and R L Smith. 1984. “Ultrasonic Wave Attenuation Spectra in Steels.” Journal of Physics D: Applied Physics 17 (1): 109.
- Roumina, R, and C W Sinclair. 2010. “Recovery Kinetics in the Presence of Precipitates: The Softening Response of an Al–Mg–Sc Alloy.” Acta Materialia 58 (1): 111–121. doi:10.1016/j.actamat.2009.08.062. http://www.sciencedirect.com/science/article/pii/S1359645409005850.
- Royer, D, E Dieulesaint, X Jia, and Y Shui. 1988. “Optical Generation and Detection of Surface Acoustic Waves on a Sphere.” Applied Physics Letters 52 (9): 706–708.
- Sarkar, S, A Moreau, M Militzer, and W J Poole. 2008. “Evolution of Austenite Recrystallization and Grain Growth Using Laser Ultrasonics.” Metallurgical and Materials Transactions A 39 (4): 897–907.
- Scruby, C B, R J Dewhurst, D A Hutchins, and S B Palmer. 1980. “Quantitative Studies of Thermally Generated Elastic Waves in Laser-Irradiated Metals.” Journal of Applied Physics 51 (12): 6210–6216.
- Scruby, C B, and L E Drain. 1990. Laser Ultrasonics Techniques and Application. Taylor & Francis Group, New York.
- Scruby, C B, and B C Moss. 1993. “Non-Contact Ultrasonic Measurements on Steel at Elevated Temperatures.” NDT & E International 26 (4): 177–188.
- Senkov, O, M Dubois, and J Jonas. 1996. “Elastic Moduli of Titanium-Hydrogen Alloys in the Temperature Range 20 °C to 1100 °C.” Metallurgical and Materials Transactions A 27 (12): 3963–3970.
- Sharples, S, M Clark, W Li, and M Somekh. 2008. “Rapid Imaging of Microstructure Using Spatially Resolved Acoustic Spectroscopy.” 1st International Symposium on Laser Ultrasonics Science, T.
- Sheller, P, R, S Lachmann, C Klinkenberg, K Klinkenberg, and A Weiss. 2006. “Nb-Alloyed Cr-Steel in Simulated Strip Casting Process.” ISIJ International 46: 1865–1870.
- Smith, A, S E Kruger, J Sietsma, and S Van Der Swaag. 2006. “Laser-Ultrasonic Monitoring of Austenite Recrystallization in C–Mn Steel.” ISIJ Int. 46 (8): 1223–1232.
- Smith, A, S E Kruger, J Sietsma, and S van der Zwaag. 2007. “Laser-Ultrasonic Monitoring of Ferrite Recovery in Ultra Low Carbon Steel.” Materials Science and Engineering: A 458 (1-2): 391–401.
- Smith, R L, W N Reynolds, and H N G Wadley. “Ultrasonic Attenuation and Microstructure in Low-Carbon Steels.” Metal Science 15 (1981): 554–558.
- Stanke, Fred E. 1986. “Spatial Autocorrelation Functions for Calculations of Effective Propagation Constants in Polycrystalline Materials.” The Journal of the Acoustical Society of America 80 (5): 1479–1485.
- Stanke, Fred E, and G S Kino. 1984. “A Unified Theory for Elastic Wave Propagation in Polycrystalline Materials.” J. Acoust.. Soc. Am. 75 (3): 665–681.
- Sundin, S, and D Artymowicz. 2002. “Direct Measurements of Grain Size in Low-Carbon Steels Using the Laser Ultrasonic Technique.” Metallurgical and Materials Transactions A 33 (3): 687–691.
- Thompson, R Bruce, F J Margetan, P Haldipur, L Yu, A Li, P Panetta, and H Wasan. 2008. “Scattering of Elastic Waves in Simple and Complex Polycrystals.” Wave Motion 45 (5): 655–674.
- Toubal, L, P Bocher, A Moreau, and D Levesque. 2010. “Macroregion Size Measurements in Bimodal Titanium Forgings Using Two-Dimensional Autocorrelation Method.” Metallurgical and Materials Transactions A 41: 744–750.
- Turner, Joseph A. 1999. “Elastic Wave Propagation and Scattering in Heterogeneous, Anisotropic Media: Textured Polycrystalline Materials.” The Journal of the Acoustical Society of America 106 (2): 541–552.
- Yan, Haitao, Hongyun Bi, Xin Li, and Zhou Xu. 2008. “Microstructure and Texture of Nb + Ti Stabilized Ferritic Stainless Steel.” Materials Characterization 59 (12): 1741–1746. doi:10.1016/j.matchar.2008.03.018. http://www.sciencedirect.com/science/article/pii/S1044580308001289.
- ———. 2009. “Precipitation and Mechanical Properties of Nb-Modified Ferritic Stainless Steel during Isothermal Aging.” Materials Characterization 60 (3): 204–209. doi:10.1016/j.matchar.2008.09.001. http://www.sciencedirect.com/science/article/pii/S1044580308002453.
- Yang, Liyong, and Joseph A Turner. 2004. “Attenuation of Ultrasonic Waves in Rolled Metals.” The Journal of the Acoustical Society of America 116 (6): 3319–3327.