Curriculum Vitae, June 2012
(a) NAME IN FULL
Peidong WU
(c) BUSINESS ADDRESS
Department of Mechanical Engineering
McMaster University
1280 Main Street West
Hamilton, Ontario L8S 4L7
Phone:
(905) 525-9140 EXT. 20092
Fax:
(905) 572-7944
Email:
peidong@mcmaster.ca
(e) EDUCATIONAL BACKGROUND
Ph.D.
Doctor of Philosophy (1994)
Laboratory for Engineering Mechanics
Faculty of Mechanical Engineering and Marine Technology
Delft University of Technology, The Netherlands
Supervisor: Erik van der Giessen
M.Eng.
Master of Engineering (1987)
Beijing Graduate School
China University of Mining, China
Supervisor: Z.D. Chen
B.Sc.
Bachelor of Engineering (1982)
Department of Mechanics
Zhejiang University, China
(f) CURRENT STATUS AT McMASTER UNIVERSITY
Full Professor in the Department of Mechanical Engineering
Member
 McMaster Manufacturing Research Institute (MMRI)
 Brockhouse Institute of Materials Research (BIMR)
(g) PROFESSIONAL ORGANIZATIONS
1. Professional Engineer of Ontario (PEO)
(h) EMPLOYMENT HISTORY
Academic
1. Full Professor, Mechanical Engineering, McMaster University (since January 2012)
2. Associate Professor, Mechanical Engineering, McMaster University (May 2006 –
December 2011)
3. Adjunct Professor, Faculty of Engineering, University of Sherbrooke, Quebec (August
1998 – April 2006)
4. Research Associate, Faculty of Engineering, University of Sherbrooke, Quebec
(August 1996 – September 1997)
5. Canada International Fellow, Faculty of Engineering, University of Sherbrooke,
Quebec (August 1994 – July 1996)
6. Assistant Professor, China University of Mining, China (September 1982 - May
1989)
Industry
1. Technical Leader, Novelis Global Technology Centre, Kingston, Ontario (January 2005
– April 2006)
2. Technical Leader, Alcan International, Kingston, Ontario (April 2002 – December
2004)
3. Research Scientist, Alcan International, Kingston, Ontario (October 1997 – March
2002)
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CV of P.D. Wu, June 2012
(i) SCHOLARLY AND PROFESSIONAL ACTIVITIES
Journal Referee (~12 papers/year)
1. Computational Materials Science
2. European Journal of Mechanics A/Solids
3. International Journal of Engineering Sciences
4. International Journal of Mechanical Sciences
5. International Journal of Plasticity
6. International Journal of Solids and Structures
7. Journal of Applied Mechanics – Transactions of the ASME
8. Journal of Engineering Materials and Technology – Transactions of the ASME
9. Journal of Materials Processing Technology
10. Journal of the Mechanics and Physics of Solids
11. Metallurgical and Materials Transactions A
12. Metallurgical and Materials Transactions B
13. Modelling and Simulation in Materials Science and Engineering
14. Steel Research International
15. Tribology International
Conference International Scientific Committees
1. The 11th International Conference on Numerical Methods in Industrial Forming
Processes (NUMIFORM 2013), Shenyang, China, 6-10 July 2013.
2. The 8th International Conference and Workshop on Numerical Simulation of 3D Sheet
Metal Forming Processes (NUMISHEET 2011), Seoul, Republic of Korea, 21-26 August
2011.
3. The 10th International Conference on Numerical Methods in Industrial Forming
Processes (NUMIFORM 2010), Pohang, Republic of Korea, 13-17 June 2010.
4. International Conference on Fracture and Damage of Advanced Materials, Hangzhou,
China, 10–14 August 2004.
5. The 6th Asia-Pacific Symposium on Engineering Plasticity and Its Applications,
Sydney, Australia, 2–6 December 2002.
External Grant Reviewer
1. Natural Sciences and Engineering Research Council of Canada (NSERC)
2. Ontario Centre of Excellence (OCE)
(j) AREAS OF INTEREST
Research
 Constitutive Modeling of Engineering Materials and their Composites
 Computational Mechanics
 Biomechanics
 Sheet Metal Forming
Teaching
 Topics Related to Plasticity
 Core Courses in Mechanics of Materials
(k) HONOURS
1. NSERC Discovery Accelerator Supplement (2011-2013)
2. The International Journal of Plasticity Medal Award (2009)
3. The Early Researcher Award, Ministry of Research and Innovation of Ontario (2007)
4. Paper “Evaluation of biaxial forming limits by bulge testing” was awarded The Best
Technical Paper of Novelis in Year 2006.
5. Paper “Analysis of roping in AA6111 automotive sheet” was awarded The Best
Technical Paper of Alcan in Year 2003.
6. NSERC Canada International Fellow (August 1994 – July 1996)
CV of P.D. Wu, June 2012
-3(o) LIFETIME PUBLICATIONS
Peer Reviewed International Journal Publications (student and research associate
names are underlined)
ISI Web of Science (June 6, 2012)
Total
h-index
Total
Citations of
Citations
papers
the most
cited paper
1463
23
79
200
Submitted
1. Wang, H., Wu, P.D., Tome, C.N. & Wang, J. (2012): “A physics-based crystal
plasticity model for Hexagonal Close Packed (HCP) crystals including both twinning
and detwinning mechanisms,” Acta Materialia, (submitted).
2. Wang, H., Clausen, B., Tome, C.N. & Wu, P.D. (2012): “Studying the effect of stress
relaxation and creep on lattice strain evolution of stainless steel under tension,” Acta
Materialia, (submitted).
3. Hu, X.H., Wu, P.D., Lloyd, D.J. & Embury, J.D. (2012): “Enhanced formability in
sheet metals produced by cladding a high strain-rate sensitive layer,” Mechanics of
Materials, (submitted).
Published/Accepted
1. Wu, P.D., Wang, H. & Neale, K.W. (2012): “On the large strain torsion of HCP
polycrystals,” International Journal of Applied Mechanics, (in press).
2. Wang, H., Wu, P.D., Tome, C.N. & Wang, J. (2012): “A constitutive model of
twinning and detwinning for hexagonal close packed polycrystals,” Materials Science
and Engineering A, (in press).
3. Wang, H., Wu, P.D., Tome, C.N. & Wang, J. (2012): “Study of lattice strains in
magnesium alloy AZ31 based on a large strain elastic-viscoplastic self-consistent
polycrystal model,” International Journal of Solids and Structures, 49, 2155—2167.
4. Wang, H., Wu, P.D., Boyle, K.P. & Neale, K.W. (2011): “On crystal plasticity
formability analysis for magnesium alloy sheets,” International Journal of Solids and
Structures, 48, 1000—1010.
5. Hu, X.H., Wilkinson, D.S., Jain, M., Wu, P.D. & Mishra, R.K. (2011): “The impact of
particle distributions and grain-level inhomogeneities on post-necking deformation
and fracture in AA5754 sheet alloys during uniaxial tension,” Materials Science and
Engineering, A528, 2002—2016.
6. Wang, H., Wu, P.D. & Neale, K.W. (2010): “Numerical analysis of large strain simple
shear and fixed-end torsion of HCP polycrystals,” CMC-Computers, Materials &
Continua, 19, 255—284.
7. Wang, H., Wu, P.D. & Neale, K.W. (2010): “On the role of the constitutive model and
basal texture on the mechanical behavior of magnesium alloy AZ31B sheet,” Journal
of Zhejiang University - Science, A11, 744—755.
8. Wang, H., Raeisinia, B., Wu, P.D., Agnew, S.R. & Tome, C.N. (2010): “Evaluation of
polycrystal plasticity models for HCP materials,” International Journal of Solids and
Structures, 47, 2905—2917.
9. Shi, Y., Wu, P.D., Lloyd, D.J. & Embury, J.D. (2010): “Crystal plasticity based
analysis of localized necking in aluminum tube under internal pressure,” European
Journal of Mechanics A/Solids, 29, 475—483.
10. Hu, X.H., Wilkinson, D.S., Jain, M., Wu, P.D. & Mishra, R.K. (2010): “A macro-micro
multi-level modeling scheme to study the effect of particle distribution on wrapbendability of AA5754 sheet alloys,” Journal of Materials Processing Technology,
210, 1232—1242.
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11. Wang, H., Wu, P.D. & Gharghouri, M.A. (2010): “Effect of basal texture on anisotropy
and formability of AZ31 sheets,” Materials Science and Engineering A, A527, 3588—
3594.
12. Chen, X.X., Wu, P.D., Lloyd, D.J., Embury, J.D. & Huang, Y. (2010): “Enhanced
ductility in sheet metals produced by cladding a ductile layer,” Journal of Applied
Mechanics, 77, article number 041015 (7 pages).
13. Li, B., Nye, T.J. & Wu, P.D. (2010): “Predicting the forming limit diagram of AA51820,” Journal of Strain Analysis for Engineering Design, 45, 255—273.
14. Wang, H., Wu, P.D., Tome, C.N. & Huang, Y. (2010): “A finite strain elasticviscoplastic self-consistent model for polycrystalline materials,” Journal of the
Mechanics and Physics of Solids, 58, 594—2612.
15. Chen, X.X., Wu, P.D., Embury, J.D. & Huang, Y. (2010): “Enhanced ductility in round
tensile bars produced by cladding a ductile ring,” Modelling and Simulation in
Materials Science and Engineering, 18, article number 025005 (18 pages).
16. Wu, P.D., Chen, X.X., Lloyd, D.J. & Embury, J.D. (2010): “Effects of superimposed
hydrostatic pressure on fracture in sheet metals under tension,” International Journal
of Mechanical Sciences, 52, 236—244.
17. Hu, X.H., Cingara, G.A., Wilkinson, D.S., Jain, M., Wu, P.D. & Mishra, R.K. (2009):
“Studies of texture gradients in the localized necking band of AA5754 by EBSD and
FEM,” CMC – Computers, Materials and Continua, 14, 99—123.
18. Chen, B., Wu, P.D. & Gao, H. (2009): “A characteristic length for stress transfer in
the nanostructure of biological composites,” Composites Science and Technology, 69,
1160—1164.
19. Peng, J., Wu, P.D., Huang, Y., Chen, X.X., Embury, J.D., Lloyd, D.J. & Neale, K.W.
(2009): “Effects of superimposed hydrostatic pressure on fracture in round bars
under tension,” International Journal of Solids and Structures, 46, 3741—3749.
20. Chen, B., Wu, P.D. & Gao, H. (2009): “Geometry- and velocity-constrained cohesive
zones and mixed mode fracture/adhesion energy of interfaces with periodic cohesive
interactions,” Proceedings of the Royal Society of London, A465, 1043—1053.
21. Wu, P.D., Embury, J.D., Lloyd, D.J., Huang, Y. & Neale, K.W. (2009): “Effect of
superimposed hydrostatic pressure on sheet metal formability,” International Journal
of Plasticity, 25, 1711—1725.
22. Chen, B., Wu, P.D. & Gao, H. (2009): “Pre-tension generates strongly reversible
adhesion of a spatula pad on substrate,” Journal of the Royal Society Interface, 6,
529—537.
23. Chen, B., Wu, P.D. & Huang, Y. (2008): “Detaching speed of a gecko toe,” Applied
Physics Letters, 93, article number 103901 (3 pages).
24. Kang, J., Wilkinson, D.S., Bruhis, M., Jain, M., Wu, P.D., Embury, J.D. & Mishra, R.K.
(2008): “Shear localization and damage in AA5754 aluminum alloy sheets,” Journal
of Materials Engineering and Performance, 17, 395—401.
25. Chen, B., Wu, P.D. & Gao, H. (2008): “Hierarchical microstructures allow Gecko to
control adhesion on a vertical surface,” Proceedings of the Royal Society of London,
A464, 1639—1652.
26. Shi, Z.F., Huang, B., Tang, H., Huang, Y., Zhang, T.Y., Wu, P.D., Hwang, K.C. & Gao,
H. (2008): “Determination of the microscale stress-strain curve and strain gradient
effect from the micro-bend of ultra-thin beams,” International Journal of Plasticity,
24, 1606—1624.
27. Kang, J., Wilkinson, D.S., Wu, P.D., Bruhis, M., Jain, M., Embury, J.D. & Mishra, R.K.
(2008): “Constitutive behavior of AA5754 sheet materials at large strains,” ASME
Journal of Engineering Materials and Technology, 130, article number 031004 (5
pages).
28. Kang, J., Hu, X., Wright, S.I., Wu, P.D., Wilkinson, D.S. & Mishra, R.K. (2008): “On
the calculation of volume fraction of texture components in AA5754 sheet materials,”
Metallurgical and Materials Transactions A, 39A, 2007—2013.
29. Jin, H., Wu, P.D. & Lloyd, D.J. (2007): “Comparison of Grain Structures and Textures
in AA5754 Aluminum Alloy Sheets Processed by Room Temperature Rolling and
Rolling with Liquid Nitrogen,” Materials Science Forum, 558—559, 217—222.
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30. Wang, H., Hwang, K.C., Huang, Y., Wu, P.D., Ravichandran, G., Han, C.S. & Gao, H.
(2007): “A conventional theory of strain-gradient crystal plasticity based on the
Taylor dislocation model,” International Journal of Plasticity, 23, 1540—1554.
31. Wu, P.D., Lloyd, D.J., Jain, M., Neale, K.W. & Huang, Y. (2007): “Effects of spatial
grain orientation distribution and initial surface topography on sheet metal necking,”
International Journal of Plasticity, 23, 1084—1104.
32. Shi, Y., MacEwen, S.R., Hamstra, P., Mallory, R. & Wu, P.D. (2007): “Numerical
simulation of pressure ram forming process,” Journal of Materials Processing and
Technology, 182, 411—417.
33. Wu, P.D., Lloyd, D.J. & Huang, Y. (2006): “Correlation of ridging and texture in
ferritic stainless steel sheet,” Materials Science and Engineering, A427, 241—245.
34. Yun, G., Hwang, K.C., Huang, Y., Wu, P.D. & Liu, C. (2006): “Size effect in tension of
thin films on substrate: A study based on the reformulation of mechanism-based
strain gradient plasticity,” Philosophical Magazine, 86, 5553—5566.
35. Wu, P.D., Huang, Y. & Lloyd, D.J. (2006): “Studying grain fragmentation in ECAE by
simulating simple shear,” Scripta Materialia, 54, 2107—2112.
36. MacEwen, S.R., Shi, Y., Hamstra, P., Mallory, R. & Wu, P.D. (2006): “Evaluation of
biaxial forming limits by bulge testing,” Materials Science Forum, 519—521, 117—
124.
37. Wu, P.D. & Lloyd, D.J. (2006): “Influence of spatial grain orientation distribution on
sheet metal necking,” Materials Science Forum, 519—521, 103—110.
38. Wu, P.D., Jin, H., Shi, Y. & Lloyd, D.J. (2006): “Analysis of ridging in ferritic stainless
steel sheet,” Materials Science and Engineering, A423, 300—305.
39. Yun, G., Hwang, K.C., Huang, Y. & Wu, P.D. (2005): “A reformulation of mechanismbased strain gradient plasticity,” Philosophical Magazine, 85, 4011—4029.
40. Wu, P.D. & Lloyd, D.J. (2005): “Correlation of roping and texture in AA6111
automotive sheet,” Modelling and Simulation in Materials Science and Engineering,
13, 981—991.
41. Wu, P.D., MacEwen, S.R., Graf, A., Jain, M. & Neale, K.W. (2005): “On forming limit
stress diagram analysis,” International Journal of Solids and Structures, 42, 2225—
2241.
42. Qu, S., Siegmund, T., Huang, Y., Wu, P.D., Zhang, F. & Hwang, K.C. (2005): “A
study of particle size effect and interface fracture in aluminum alloy composite via an
extended conventional theory of mechanism-based strain gradient plasticity,”
Composites Science and Technology, 65, 1244—1253.
43. Jin, H., Wu, P.D., Ball, M.D. & Lloyd, D.J. (2005): “Three dimensional texture
determination of a 6111 aluminum alloy sheet by precise serial sectioning and EBSD
measurement,” Materials Science and Technology, 21, 419—428.
44. Wu, P.D., MacEwen, S.R., Lloyd, D.J., Jain, M., Tugcu, P. & Neale, K.W. (2005): “On
pre-straining and the evolution of material anisotropy in sheet metals,” International
Journal of Plasticity, 21, 723—739.
45. Qu, S., Huang, Y., Jiang, H., Liu, C., Wu, P.D. & Hwang, K.C. (2004): “Fracture
analysis in the conventional theory of mechanism-based strain gradient (CMSG)
plasticity,” International Journal of Fracture, 129, 199—220.
46. Wu, P.D. & Lloyd, D.J. (2004): “Analysis of surface roughening in AA6111 automotive
sheet,” Acta Materialia, 52, 1785—1798.
47. Tugcu, P., Neale, K.W., Wu, P.D. & Inal, K. (2004): “Crystal plasticity simulation of
the hydrostatic bulge test,” International Journal of Plasticity, 20, 1603—1653.
48. Jiang, H., Feng, X-Q., Huang, Y., Hwang, K.C. & Wu, P.D. (2004): “Defect nucleation
in carbon nanotubes under tension and torsion,” Computer Methods in Applied
Mechanics and Engineering, 193, 3419—3429.
49. Wu, P.D., MacEwen, S.R., Lloyd, D.J. & Neale, K.W. (2004): “A mesoscopic approach
for predicting sheet metal formability,” Modelling and Simulation in Materials Science
and Engineering, 12, 511—527.
50. Chen, B., Huang, Y., Liu, C., Wu, P.D. & MacEwen, S.R. (2004): “A dilatational
plasticity theory for viscoplastic materials,” Mechanics of Materials, 36, 679—689.
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CV of P.D. Wu, June 2012
51. Chen, B., Huang, Y., Gao, H. & Wu, P.D. (2004): “Shear crack propagation along
weak planes in solids: A finite deformation analysis incorporating the linear harmonic
potential,” International Journal of Solids and Structures, 41, 1—14.
52. Wu, P.D., MacEwen, S.R., Lloyd, D.J. & Neale, K.W. (2004): “Effect of cube texture
on sheet metal formability,” Materials Science and Engineering, A364, 182—187.
53. Neale, K.W., Inal, K. & Wu, P.D. (2003): “Effects of texture gradients and strain
paths on localization phenomena in polycrystals,” International Journal of Mechanical
Sciences, 45, 1671—1686.
54. Wu, P.D., Lloyd, D.J. & MacEwen, S.R. (2003): “A simple model describing roping in
Al sheet,” Scripta Materialia, 48, 1243—1248.
55. Dawson, P.R., MacEwen, S.R. & Wu, P.D. (2003): “Advances in sheet metal forming
analyses: dealing with mechanical anisotropy from crystallographic texture,”
International Materials Reviews, 48, 86—122.
56. Wu, P.D., Lloyd, D.J., Bosland, A., Jin, H. & MacEwen, S.R. (2003): “Analysis of
roping in AA6111 automotive sheet,” Acta Materialia, 51, 1945—1957.
57. Neale, K.W., Inal, K. & Wu, P.D. (2003): “Numerical modelling of large-strain
phenomena in polycrystalline solids,” Key Engineering Materials, 233—236, 35—46.
58. Wu, P.D., Jain, M., Savoie, J., MacEwen, S.R., Tugcu, P. & Neale, K.W. (2003):
“Evaluation of anisotropic yield functions for aluminum sheets,” International Journal
of Plasticity, 19, 121—138.
59. Zhang, P., Klein, P., Huang, Y., Gao, H. & Wu, P.D. (2002): “Numerical simulation of
cohesive fracture by the Virtual-Internal-Bond model,” Computer Modelling in
Engineering & Sciences, 3, 263—277.
60. Tugcu, P., Wu, P.D. & Neale, K.W. (2002): “On the predictive capabilities of
anisotropic yield criteria for metals undergoing shearing deformations,” International
Journal of Plasticity, 18, 1219—1236.
61. Inal, K., Wu, P.D. & Neale, K.W. (2002): “Finite element analysis of localization
deformation in FCC polycrystalline sheets under plane stress tension,” International
Journal of Solids and Structures, 39, 3469—3486.
62. Inal, K., Wu, P.D. & Neale, K.W. (2002): “Large strain behaviour of aluminum sheets
subjected to in-plane simple shear,” Modelling and Simulation in Materials Science
and Engineering, 10, 237—252.
63. Inal, K., Wu, P.D. & Neale, K.W. (2002): “Instability and localized deformation in
polycrystalline solids under plane strain tension,” International Journal of Solids and
Structures, 39, 983—1002.
64. Wu, P.D., Inal, K., Neale, K.W., Kenny, L.D., Jain, M. & MacEwen, S.R. (2001):
“Large strain behaviour of very thin aluminum sheets under planar simple shear,”
Journal de Physique IV, 11, 229—236.
65. Tugcu, P., Neale, K.W., Wu, P.D. & MacEwen, S.R. (2001): “Effect of planar
anisotropy on wrinkle formation tendencies in curved sheets”, International Journal
of Mechanical Sciences, 43, 2883—2897.
66. Wu, P.D., Graf, A., Jain, M. & MacEwen, S.R. (2000): “On alternative representation
of forming limits,” Key Engineering Materials, 177—180, 517—522.
67. Inal, K., Wu, P.D. & Neale, K.W. (2000): “Simulation of earing in textured aluminum
sheets,” International Journal of Plasticity, 16, 635—648.
68. Wu, P.D., Van der Giessen, E. & Neale, K.W. (1999): “Computational aspects of
network models for rubber elasticity,” Journal of China University of Mining &
Technology, 9, 97—102.
69. Tugcu, P., Wu, P.D. & Neale, K.W. (1999): “Finite strain analysis of simple shear
using recent anisotropic yield criteria,” International Journal of Plasticity, 15, 939—
962.
70. Wu, P.D., Neale, K.W., Van der Giessen, E., Jain, M., Makinde, A. & MacEwen, S.R.
(1998): “Crystal plasticity FLD analysis of rolled aluminum sheets,” Metallurgical and
Materials Transactions, 29A, 527—535.
71. Savoie, J., Jain, M., Car, A.R., Wu, P.D., Neale, K.W., Zhou, Y. & Jonas, J.J. (1998):
“Predictions of forming limit diagrams using crystal plasticity models,” Materials
Science and Engineering, A257, 128—133.
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CV of P.D. Wu, June 2012
72. Steenbrink, A.C., Van der Giessen, E. & Wu, P.D. (1998): “Studies on the growth of
voids in amorphous glassy polymers,” Journal of Materials Science, 33, 3162—3175.
73. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1997): “On crystal plasticity FLD
analysis,” Proceedings of the Royal Society of London, A453, 1831—1848.
74. Steenbrink, A.C., Van der Giessen, E. & Wu, P.D. (1997): “Void growth in glassy
polymers,” Journal of the Mechanics and Physics of Solids, 45, 405—437.
75. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1996): “Simulation of the behavior of
FCC polycrystals during reversed torsion,” International Journal of Plasticity, 12,
1199—1219.
76. Wu, P.D. & Van der Giessen, E. (1996): “Computational aspects of localized
deformations in amorphous glassy polymers,” European Journal of Mechanics
A/Solids, 15, 799—823.
77. Wu, P.D. & Van der Giessen, E. (1995): “On network descriptions of mechanical and
optical properties of rubbers,” Philosophical Magazine, 71, 1191—1206.
78. Wu, P.D. & Van der Giessen, E. (1995): “On neck propagation in amorphous glassy
polymers,” International Journal of Plasticity, 11, 211—235.
79. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1994): “Large strain torsion of axially
constrained solid rubber bars,” Acta Mechanica Sinica, 10, 136—149.
80. Wu, P.D. & Van der Giessen, E. (1994): “Analysis of shear band propagation in
amorphous glassy polymers,” International Journal of Solids and Structures, 31,
1493—1517.
81. Wu, P.D. & Van der Giessen, E. (1993): “On large strain inelastic torsion of glassy
polymers,” International Journal of Mechanical Sciences, 35, 935—951.
82. Wu, P.D. & Van der Giessen, E. (1993): “On improved network models for rubber
elasticity and their applications to orientation hardening in glassy polymers,” Journal
of the Mechanics and Physics of Solids, 41, 427—456.
83. Van der Giessen, E., Wu, P.D. & Neale, K.W. (1992): “On the effect of plastic spin on
large strain elastic-plastic torsion of solid bars,” International Journal of Plasticity, 8,
773—801.
84. Wu, P.D. & Van der Giessen, E. (1992): “On improved network models for rubber
elasticity,” Mechanics Research Communications, 19, 427—433.
85. Wu, P.D. & Van der Giessen, E. (1991): “Analysis of elastic-plastic torsion of circular
bars at large strains,” Archive of Applied Mechanics, 61, 89—103.
Refereed Conference Proceedings (student and research associate names are
underlined)
1. Qiao, H., Wu, P.D., Wang, H. & Daymond, M.R. (2012): “Study of lattice strains in
rolled Zircaloy-2 using a large strain elastic visco-plastic self-consistent polycrystal
model,” NuMat 2012: The Nuclear Materials Conference, Osaka, Japan, 21—25
October (submitted).
2. Wu, P.D., Wang, H. & Neale, K.W. (2012): “Effect of twinning on the large strain
torsion of extruded AZ31 bars,” XXIII ICTAM, Beijing, China, 19—24 August
(accepted).
3. Lee, S.Y., Gharghouri, M.A., Wang, H., Nayyeri, G., Wu, P.D., Poole, W.J., Wu, W. &
An, K. (2012): “Deformation behavior of solid-solution-strengthened Mg-9Wt.% Al
alloys subjected to uniaxial tension,” 9th International Conference on Magnesium
Alloys and their Applications (Mg 2012), Vancouver, Canada, 8—12 July (Accepted).
4. Shi, Y., Wu, P.D., Gallerneault, M. (2012): “Numerical simulation of flat rolling
practices,” 13th International Conference on Aluminum Alloys (ICAA -13), Pittsburgh,
Pennsylvania, USA, 3—7 June, 319—324.
5. Shi, Y., Wu, P.D., Lloyd, D.J. (2012): “Analysis of surface roughening and necking in
aluminum alloy tubes under internal pressure,” 13th International Conference on
Aluminum Alloys (ICAA -13), Pittsburgh, Pennsylvania, USA, 3—7 June, 861—866.
6. Li, H., Veldhuis, S.C. & Wu, P.D. (2012): “FEA modeling of a tribometer’s pin and
disk interaction” The 1st International Conference on Virtual Machining Process
Technology, Montreal, Canada, 28 May—1 June, 40—47.
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CV of P.D. Wu, June 2012
7. Lee, S.Y., Gharghouri, M.A., Wang, H., Nayyeri, G., Wu, P.D., Poole, W.J., Wu, W.,
Yang, L. & An, K. (2012): “In-situ neutron diffraction study of plastic deformation in
solid-solution-strengthened Mg-Al and Mg-Zn binary alloys,” Deformation, Damage,
and Fracture of Light Metals and Alloys, Orlando, USA, 11—15 March.
8. Wang, H., Wu, P.D. & Neale, K.W. (2012): “Length changes in extruded magnesium
alloy bars under large strain free-end torsion,” Magnesium Technology 2012 (ed. By
S.N. Mathaudhu, W.H. Sillekens, N.R. Needlameggham & N. Hort), 111—116.
9. Wang, H., Wu, Y., Wu, P.D. & Neale, K.W. (2011): “Influence of hydrostatic pressure
on FLDs for AZ31B sheet,” The 8th International Conference and Workshop on
Numerical Simulation of 3D Sheet Metal Forming Processes (NUMISHEET-2011),
Seoul, Republic of Korea, 21—26 August (Invited Lecture), 343—350.
10. Wang, H. & Wu, P.D. (2011): “Analysis of plane strain compression of magnesium
single crystals,” International Conference on Mechanical Properties of Materials,
Hangzhou, China, 12—15 June (Invited Lecture).
11. Wang, H., Wu, Y., Wu, P.D. & Neale, K.W. (2011): "Numerical study of mechanical
anisotropy of extruded magnesium alloy AZ31," In: Advances in Heterogeneous
Material Mechanics (2011), (ed. By J. Fan, J. Zhang, H. Chen & Z. Jin), Proceedings
of the third International Conference on Heterogeneous Material Mechanics (ICHMM2011), Shanghai, China, 22-26 May, 234—237.
12. Wang, H., Wu, Y., Wu, P.D. & Neale, K.W. (2011): “Numerical analysis of large Strain
fixed-end torsion of HCP polycrystals,” International Conference on Computational &
Experimental Engineering and Sciences (ICCES’11), Nanjing, China, 18—22 April
(Keynote Lecture).
13. Boyle, K.P. & Wu, P.D. (2011): “Formability of magnesium sheet,” SAE 2011 World
Congress & Exhibition, Detroit, MI, USA, 12—14 April.
14. Wang, H., Wu, P.D. & C. N. Tomé (2011): ”Study of lattice strain based on the finite
strain elastic-viscoplastic self-consistent model for polycrystalline materials,” 2011
TMS Annual Meeting & Exhibition, Polycrystal Modelling with Experimental
Integration: A Symposium Honoring Carlos Tomé, San Diego, CA, USA, 27
February—3 March (Invited Lecture).
15. Shi, Y., Wu, P.D., Lloyd, D.J., Neale, K.W. & Embury, J.D. (2011): “Effects of spatial
orientation distribution and initial surface topography on localized necking,” The 17th
International Symposium on Plasticity and its Current Applications, Puerto Vallarta,
Mexico, 3—8 January (Invited Lecture).
16. Chen, X.X., Wu, P.D. & Lloyd, D.J. (2010): “Effect of Superimposed Hydrostatic
Pressure on Bendability of Sheet Metals,” The 10th International Conference on
Numerical Methods in Industrial Forming Processes, Pohang, republic of Korea, 13—
17 June (Invited Lecture).
17. Wang, H. & Wu, P.D. (2010):”Effects of basal texture on formability of magnesium
alloy AZ31B sheet,” International Conference on Mechanical Properties of Materials,
Hangzhou, China, 24—28 May (Invited Lecture).
18. Wang, H. & Wu, P.D. (2010): “A large strain elastic-viscoplastic self-consistent model
for polycrystalline materials – Development and validation,” The 16th International
Symposium on Plasticity and its Current Applications, St. Kitts, USA, 3—8 January
(Keynote Lecture).
19. Chen, X.X. & Wu, P.D. (2010): “Enhanced ductility in round tensile bars by cladding
a ductile ring,” The 16th International Symposium on Plasticity and its Current
Applications, St. Kitts, USA, 3—8 January.
20. Hu, X.H., Wilkinson, D.S., Jain, M., Wu, P.D. & Mishra, R.K. (2009): “Studies of
texture gradients in the localized necking band of AA5754 by EBSD and FEM,”
Materials Science and Technology 2009 (MS&T 2009), Fundamentals and
Chracterization: Microstructure Characterization, Analyses, and Design, Detroit,
Michigan, USA, 25—29 October.
21. Wu, P.D., Embury, J.D. & Lloyd, D.J. (2009): “Numerical study of effects of
superimposed pressure on fracture,” 12th International Conference on Fracture
(ICF12), Ottawa, Canada, 12—17 July.
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22. Peng, J., Wu, P.D., Embury, J.D. & Lloyd, D.J. (2009): “Effects of superimposed
pressure on fracture,” The 15th International Symposium on Plasticity and its Current
Applications, St. Thomas, Virgin Island, USA, 3—8 January (Keynote Lecture).
23. Embury, J.D., Wu, P.D. & Lloyd, D.J. (2008): “Bendability of layered structures of Al
alloys,” 11th International Conference on Aluminum Alloys (ICAA 11), Aachen,
Germany, 22—26 September.
24. Chen, X.X., Wu, P.D., Embury, J.D. & Lloyd, D.J. (2008): “Finite element simulation
of necking in laminated metal composites,” Conference of Metallurgists (COM 2008),
Winnipeg, Manitoba, 24—28 August.
25. Hu, X.H., Wilkinson, D.S., Jain, M., Wu, P.D., Mishra, R.K. & Sachdev, A. (2008): “A
Parametric study of particle on post-necking deformation,” Conference of
Metallurgists (COM 2008), Winnipeg, Manitoba, 24—28 August.
26. Wu, P.D., Embury, J.D. & Lloyd, D.J. (2008): “Analysis of forming limit diagram for
aluminum bilayers,” In: Advances in Heterogeneous Material Mechanics (ed. by J.
Fan & H. Chen), Proceedings of The Second International Conference on
Heterogeneous Material Mechanics (ICHMM-2008), Huangshan, China, 3—8 June,
436—439.
27. Hu, X., Wilkinson, D.S., Jain, M., Wu, P.D., Mishra, R.K., Kim, S. & Sachdev, A.
(2008): "Role of particles and texture on post-necking deformation in AA5754 alloy,"
In: Proceedings of The 15th International Conference on Textures of Materials
(ICOTOM15) (ed. By A.D. Rollett), Pittsburgh, USA, 1—5 June.
28. Wu, P.D., Embury, J.D. & Lloyd, D.J. (2008): “Effects of Superimposed Pressure on
FLDs,” The 14th International Symposium on Plasticity and its Current Applications,
Hawaii, USA, 3—8 January (Keynote Lecture).
29. Hu, X., Wilkinson, D.S., Jain, M., Wu, P.D., Mishra, R.K. & Sachdev, A. (2007):
“Formability of an Automotive Aluminum Alloy-AA5754 CC,” The Light Metals
Technology Conference 2007 (LMT 2007), Saint-Sauveuer, Quebec, Canada, 24—26
September.
30. Kang, J., Wilkinson, D.S., Wu, P.D., Bruhis, M., Jain, M., Embury, J.D. & Mishra, R.K.
(2007):
“Constitutive behavior of AA5754 sheet materials at large strains,”
International Symposium on Shear Behaviour and Mechanisms in Materials Plasticity,
Nancy, France, 4—7 September. 20 p. (ISBN: 2-9517090-7-2).
31. Wu, P.D., Jain, M. & Lloyd, D.J. (2006): “Numerical analysis of localized necking in Al
sheet,” The 12th International Symposium on Plasticity and its Current Applications,
Halifax, Canada, 17—22 July.
32. Wu, P.D. & Lloyd, D.J. (2004): “Effects of strain paths on sheet metal limit strains
based on a mesoscopic approach,” In: Fracture and Damage of Advanced Materials
(ed. by Y. Guo, D. Chen & W. Tao), Proceedings of the International Conference on
Fracture and Damage of Advanced Materials – FDAM2004, Hangzhou, China, 10-14
August, China Machine Press, 79—86.
33. Wu, P.D. & Lloyd, D.J. (2003): “Modelling surface roughening with crystal plasticity,”
In: Metallurgical Modeling for Aluminum Alloys (ed. by M. Tiryakioglu & A.A. Lalli),
Proceedings from Materials Solutions Conference 2003, 1st International Symposium
on Metallurgical Modeling for Aluminum Alloys, Pittsburgh, Pennsylvania, USA, 13-16
October, 15—20.
34. Wu, P.D., MacEwen, S.R. & Lloyd, D.J. (2003): “Effect of pre-straining and residual
stress on plastic anisotropy of sheet metal,” In: Dislocations, Plasticity and Metal
Forming Plasticity (ed. by A.S. Khan, R. Kazmi & J. Zhou), Proceedings of
PLASTICITY’03: The 10th International Symposium on Plasticity and its Current
Applications, NEAT Press, 403—405. (Keynote Lecture).
35. Inal, K., Neale, K.W. & Wu, P.D. (2003): “Multiscale modelling of localization in FCC
polycrystals,” In: Dislocations, Plasticity and Metal Forming Plasticity (ed. by A.S.
Khan, R. Kazmi & J. Zhou), Proceedings of PLASTICITY’03: The 10th International
Symposium on Plasticity and its Current Applications, NEAT Press, 481—483.
36. Savoie, J., Szabo, L., Wu, P.D. & Nardini, D. (2003): “Implementation of Barlat1996
yield function into finite element simulation of sheet metal forming,” In: Dislocations,
Plasticity and Metal Forming Plasticity (ed. by A.S. Khan, R. Kazmi & J. Zhou),
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Proceedings of PLASTICITY’03: The 10th International Symposium on Plasticity and
its Current Applications, NEAT Press, 196—198.
37. Inal, K., Neale, K.W. & Wu, P.D. (2003): “Parallel computing techniques for metal
plasticity applications,” In: Proceedings of the 17 th Annual International Symposium
on High Performance Computing Systems and Applications (ed. by D. Senechal),
Sherbrooke (Quebec), Canada, 11-14 May, pp. 133—137.
38. Wu, P.D., MacEwen, S.R. & Lloyd, D.J. (2002): “Numerical study of influence of
superimposed pressure on FLD,” Light Metals 2002 (ed. by T. Lewis), 215—222.
39. Inal, K., Neale, K.W. & Wu, P.D. (2002): “Crystal plasticity FEM analysis of necking
and failure in sheet metals,” In: Proceedings of the 5th International Conference and
Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes (eds. D.Y.
Yang, S.I. Oh, H. Hun & Y.H. Kim), Jesu Island, Korea, 21-25 October 1, 555—560.
40. Neale, K.W., Inal, K. & Wu, P.D. (2002): “Multiscale modelling of texture gradient
effects on localization in FCC polycrystals,” In: Multiscale Modeling and
Characterization of Elastic-Plastic Behavior of Engineering Materials (eds. S. Ahzi et
al.), Proceedings of the IUTAM Symposium on Multiscale Modeling and
Characterization of Elastic-Plastic Behavior of Engineering Materials, Marrakech,
Morocco, 20-25 October, Kluwer, 133—140.
41. Inal, K., Neale, K.W. & Wu, P.D. (2002): “Parallel finite element algorithms for the
analysis of multiscale plasticity problems,” In: Proceedings of the 7th International
Conference on Applications of High-Performance Computing in Engineering (eds. C.A.
Brebbia, P. Melli & A. Zanasi), WIL Press, Southampton, UK, 75—83.
42. Neale, K.W., Inal, K. & Wu, P.D. (2002): “Localization in FCC polycrystals,” In:
Plasticity, Damage and Fracture at Macro, Micro and Nano Scales (ed. by A.S. Khan &
O. Lopez-Pamies), Proceeding of PLASTICITY’02: The Ninth International Symposium
on Plasticity and its Current Applications, NEAT Press, 254—256.
43. Chen, B. Wu, P.D., Xia, Z.C., MacEwen, S.R., Tang, S.C. & Huang, Y. (2001): “A
dilatational plasticity theory for aluminum sheets,” In: Multiscale deformation and
fracture in materials and structures— The James R. Rice 60th Anniversary Volume
(ed. by T.-J. Chuang and J.W. Rudnicki), Klumen Academic Publishers, 17—30.
44. Inal, K., Wu, P.D., Neale, K.W. & MacEwen, S.R. (2000): “Numerical simulation of
large deformation polycrystalline plasticity,” In: Mathematical Modelling in Metal
Processing and Manufacturing (ed. P. Martin, S.R. MacEwen, Y. Verreman, W.J. Liu &
J. Goldak), MetSoc-CIM, 15p.
45. MacEwen, S.R., Langille, A., Hamstra, P. & Wu, P.D. (2000): “Understanding the
forming and performance of aluminum beverage cans through finite element
modeling,” In: Mathematical Modelling in Metal Processing and Manufacturing (ed. P.
Martin, S.R. MacEwen, Y. Verreman, W.J. Liu & J. Goldak), MetSoc-CIM, 20p.
46. Chen, B., Huang, Y., Wu, P.D., MacEwen, S.R., Xia, Z.C. & Tang, S.C. (2000): “An
anisotropic Gurson model for aluminum sheets,” In: Mathematical Modelling in Metal
Processing and Manufacturing (ed. P. Martin, S.R. MacEwen, Y. Verreman, W.J. Liu &
J. Goldak), MetSoc-CIM, 7p.
47. Inal, K., Wu, P.D. & Neale, K.W. (1998): “Numerical simulation of earing in rolled
aluminum sheets,” In: Constitutive and Damage Modeling of Inelastic Deformation
and Phase Transformation (ed. A.S. Khan), NEAT Press, 357—360.
48. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1998): “Effects of strain paths on
sheet metal limit strains,” In: Material Instabilities in Solids (ed. by R. de Borst and
E. van der Giessen), IUTAM Symposium on Material Instabilities in Solids, Delft,
Holland, 9-13 June, John Wiley & Sons Ltd., 243—253.
49. Wu, P.D., Steenbrink, A.C., Van der Giessen, E. & Neale, K.W. (1996): “Localized
plastic deformation in rubber toughened plastics,” Composites’96/Oriented Polymers
Symposium, Boucherville (Quebec), Canada, 9—11 October, 678—687.
50. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1996): “On crystal plasticity FLD
analysis,” 19th International Congress of Theoretical and Applied Mechanics, Kyoto,
Japan, 25-31 August.
51. Wu, P.D., Neale, K.W. & Van der Giessen, E. (1996): “Length changes during large
strain reverse torsion,” In: Advances in Engineering Plasticity and its Applications
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(ed. by T. Abe and T. Tsuta), Proceedings of the Asia-Pacific Symposium on Advances
in Engineering Plasticity and its Applications—AEPA’96, Hiroshima, Japan, 21-24
August, Pergamon, 229—234.
52. Van der Giessen, E. & Wu, P.D. (1995): “Aspects of the plastic deformation in glassy
polymer blends,” In: Mechanics of Plastics and Plastic Composites (ed. by M.C.
Boyce), MD-Vol. 68/AMD-Vol. 215, Proceedings of the 1995 ASME International
Mechanical Engineering Congress and Exposition, San Francisco, USA, 12-17
November, 203—222.
53. Wu, P.D. & Van der Giessen, E. (1994): “Length changes in glassy polymers under
large strain inelastic free-end torsion,” Proceedings of 9th International Conference
on Deformation, Yield and Fracture of Polymers, The Institute of Materials,
Cambridge, England, 11-14 April, P36/1—4.
54. Wu, P.D. & Van der Giessen, E. (1992): “Large strain visco-plastic torsion of circular
bars of glassy polymers,” In: Advances in Engineering Plasticity and its Applications
(ed. by W.B. Lee), Proceedings of the Asia-Pacific Symposium on Advances in
Engineering Plasticity and its Applications, Hong Kong, 15-17 December, Elsevier,
477—484.
55. Wu, P.D. & Van der Giessen, E. (1992): “A modified 3-D constitutive model for
glassy polymers and its application to large strain simple shear of polycarbonate,” In:
Modelling of Plastic Deformation and its Engineering (ed. by S.I. Andersen et al.),
Proceedings of the Riso International Symposium on Material Science, Rockslide,
Denmark, 7-11 September, 519—524.
56. Van der Giessen, E., Wu, P.D. & Neale, K.W. (1991): “Effects of plastic spin and
deformation-induced anisotropy on large strain torsion of solid bars,” In: Constitutive
Relations for Finite Deformation of Polycrystalline Metals (ed. by R. Wang and D.C.
Drucker), Proceedings of the IUTAM Symposium on Constitutive Relations for Finite
Deformation of Polycrystalline Metals, Beijing, China, 22-25 July, Peking University
/Springer Verla, 233—248.
Patent
MacEwen, S.R. & Wu, P.D. (2004): “Method of using isotropic plasticity to model the
forming of anisotropic sheet,” US Patent 6,731,996, 2004.