MAIN ACADEMIC AWARDS RECEIVED AND ACADEMIC EXCHANGE ACTIVITIES OF PROFESSOR T.Y.HSU(XU ZUYAO) 徐祖耀院士主要学术成就所获奖项与学术交流Ⅰ.Martensitic Transformation 1
The Tempering of High Speed Steel 3
Diffusion of Carbon During the Formation of Low-carbon Martensite 16
On Thermodynamic Calculation of Ms and on Driving Force for Martensitic Transformations in Fe-C 20
The Effect of Quenched-in Vacancies on the Martensitic Transformation 28
On Calculation of Ms and Driving Force for Martensitic Transformation in Fe-C 35
The Effect of Austenite Ordering on the Martensitic Transformation in Fe-Ni Alloys 42
An Approximate Approach for the Calculation of Ms in Iron-base Alloys 51
Group Theory and Crystallography of the Martensitic Transformation in a Cu-26.71Zn-4.15 Al Shape Memory Alloy 63
Thermodynamic Prediction of Ms and Driving Force for Martensitic Transformation in Fe-Mn-C Alloys 75
Effect of Solution Strengthening of Austenite on Martensite Transformation in Fe-Ni-C Alloys 83
In Situ Study of Phase Transformations in a 50.8at.%Ni-Ti Alloy 91
An Investigation of Phase Transformation in a 50.8at.%Ni-Ti Shape Memory Alloy 99
Isothermal Martensite Formation in an AISI 52100 Ball Bearing Steel 106
Effect of Isothermal Martensite on Properties of an AISI 52100 Ball Bearing Steel 115
Influence of Grain Size and Ordering Degree of the Parent Phase on Ms in a Cu-Zn-Al Alloy Containing Boron 118
Pulsed Magnetic Field-induced Martensitic Transformation in an Fe-21Ni-4Mn Alloy 126
Thermodynamics of the Martensitic Transformation in Cu-Zn Alloys 133
Thermodynamics of Martensitic Transformation in Fe-Mn-C and Fe-Ni-C Alloys 138
Estimation of the Critical Driving Force for the Thermoelastic Martensitic Transformation in Cu-Zn-Al Alloys 145
Thermodynamics of the Martensitic Transformation in Cu-Al Alloys 148
Thermodynamics of the Martensitic Transformation in Cu-Zn-Al Alloys 154
The Behavior of Quenched-in Vacancies and Stabilization of Martensite in Copper-Based Shape Memory Alloys 163
The Size Effect of the Martensitic Transformation in ZrO2-Containing Ceramics 170
Carbon Diffusion and Kinetics During the Lath Martensite Formation 177
Comment on"Influence of Austenite Grain Size on γ-ε Martensitic Transformation Temperature in Fe-Mn-Si-Cr Alloys" 181
Thermomechanical Training Behavior and Its Dynamic Mechanical Analysis in an Fe-Mn-Si Shape Memory Alloy 183
Catalysis of Deformation on Martensitic and Reverse Transformations in a NiAl-Fe Shape Memory Alloy 194
Martensitic Transformation fcc(γ)→hcp(ε) 200
In-situ TEM Observation of γ→ε Martensitic Transformation during Tensile Straining in an Fe-Mn-Si Shape Memory Alloy 206
Analysis of the Stress-strain Curves of a Fe-Mn-Si Shape Memory Alloy 214
Effect of f.c.c.Antiferromagnetism on Martensitic Transformation in Fe-Mn-Si Based Alloys 220
Audio-Frequency Internal Friction Characteristics Associated with the γ→ε Martensitic Transformation in Fe-Mn-Si Based Alloys 228
Reverse Transformation Characteristics of Thermally Induced ε(hcp) Martensite in an Fe-Mn-Si Based Alloy 238
Energy Consideration of the fcc(γ)→hcp(ε) Martensitic Transformation in Fe-Mn-Si Based Alloys 247
Interaction Between Antiferromagnetic Transition and Martensitic Transformation in Fe-Mn-Si Based Shape Memory Alloys 259
Critical Driving Force for Martensitic Transformation fcc(γ)→hcp(ε) in Fe-Mn-Si Shape Memory Alloys 269
Crystallography of fcc(γ)→hcp(ε) Martensitic Transformation in Fe-Mn-Si Based Alloys 278
Martensitic Transformation in Fe-Mn-Si Based Alloys 284
Soliton Interpretation of Relation Between Driving Force and Velocity of Interface Motion in Martensitic Transformation 289
Ⅱ.Bainitic Transformation 297
Thermodynamics of the Bainitic Transformation in Fe-C Alloys 299
Effect of Austenite Strengthening on Martensitic and Bainitic Transformations 317
Bainite Formation in Low Carbon Cr-Ni Steels 323
An Investigation of Internal Friction within the Incubation Period of the Bainitic Transformation 333
Bainite Formation in a Silver-Cadmium Alloy 340
Thermodynamics of the Bainitic Transformation in Cu-Zn Alloy 349
On Bainite Formation 354
Kinetics Characteristics of Bainite Formation in Cu-Zn-Al Alloys 363
Thermodynamics of the Bainitic Transformation in Cu-Zn-Al Alloys 367
Morphology and Structure of Transformation Products Formed at Intermediate Temperature in a Cu-Zn-Al Alloy 374
Non-inheritance of Ordering of Parent Phase During the Bainite Formation 379
Thermodynamics of Bainitic Transformation in a Cu-24at%Al Alloy 384
Thermodynamic Consideration of Formation Mechanism of α1 Plate in β Cu-Base Alloys 387
Bainitic Transformation in 8mol% CeO2-ZrO2 401
Ⅲ.Shape Memory Alloys and Shape Memory Effect 407
The Effect of Martensite Ordering on Shape Memory Effect in a Copper-Zinc-Aluminium Alloy 409
Influence of Ordering Degree Grain Size and Pre-Strain on Shape Memory Effect of Cu-Zn-Al Alloy 417
Influence of Deformation at Martensite State on Shape Recovery in Cu-Zn-Al Memory Alloys 421
Perspective in Development of Shape Memory Materials Associated with Martensitic Transformation 430
The Effect of Nitrogen on Shape Memory Effect in Fe-Mn-Si Alloys 435
Two-way Shape Memory Effect in a NiAl-Fe Alloy 440
Effect of Stacking Fault Probability on γ→ε Martensitic Transformation and Shape Memory Effect in Fe-Mn-Si Based Alloys 444
Shape Memory Effect of a Nd-doped Polycrystalline NiAl Alloy 459
The Influence of Rare Earth Element on Shape Memory Effect in Fe-Mn-Si Alloys 464
Fe-Mn-Si Based Shape Memory Alloys 469
Ⅳ.Thermodynamics of Materials 477
C-C Interaction Energy in Fe-C Alloys 479
Phase Boundaries of Single-phase ε-and γ'-Fields in Fe-C-N Ternary Phase Diagram 489
Thermodynamics of the α-and β-Phases Equilibria and Ordering in Cu-Zn System 495
Thermodynamic Calculation of the Equilibrium Temperature between the Tetragonal and Monoclinic Phases in CeO2-ZrO2 504
Thermodynamic Calculation of the Ms Temperature in 8 mol% CeO2-ZrO2 509
Gibbs Free Energy Evaluation of the fcc(γ)and hcp(ε)Phases in Fe-Mn-Si Alloys 513
Thermodynamic Consideration of Antiferromagnetic Transition on fcc(γ)→hcp(ε)Martensitic Transformation in Fe-Mn-Si Shape Memory Alloys 520
Thermodynamic Prediction of Ms in Fe-Mn-Si Shape Memory Alloys Associated with fcc(γ)→hcp(ε)Martensitic Transformation 526
Ⅴ.Spinodal Decomposition,Pearlitic Transformation and Other Topics 533
Mechanism of Embrittlement in Tempered Martensite 535
The Internal Friction of the Pearlitic,Bainitic and Martensitic Transformations in Fe-Ni-C Alloys 542
Thermodynamic Criterion of Spinodal Decomposition in Ternary Systems 549
Segregation of Rare Earth During Isothermal Transformation in Low Carbon Steels 556
Effects of Rare Earth Element on Isothermal and Martensitic Transformations in Low Carbon Steels 559
Self-energy and Interaction Energy of Stacking Fault in fcc Metals Calculated by Embedded-atom Method 578
Ⅵ.Proceedings of International Conferences 587
Superledges and Carbides in Bainite 589
The Shape Memory Effect of Cu-Zn-Al Alloys 594
Heat Treating Process for Stabilization of Retained Austenite in a 1C-1.5Cr Ball Bearing Steel 600
Thermodynamics of Martensitic Transformation in Ferrous Alloys 606
The Effect of Some Factors on Ms and SME in Ce-TZP Ceramics 614
Local Softening of Parent Phase Within the Incubation Period of Isothermal Martensitic Transformation in an Fe-Ni-Mn Alloy 616
Stabilization of Martensite and Ordering of the Parent Phase in a Cu-Zn-Al Alloy 622
Martensitic Transformation fcc(γ)→hcp(ε)and the Shape Memory Effect in Fe-Mn-Si Based Alloys 628
Characteristics of the Martensitic Transformation fcc(γ)→hcp(ε) Associated with SME in Fe-Mn-Si Based Alloys and a Novel Shape Memory Alloy Fe-Mn-Si-Re 634
Appendix 641
List of Papers Published by T.Y.Hsu(Xu Zuyao)with His Coll aborators (1957 to Sept.2000) 643
A.Papers In Chinese 643
B.Papers In English 651
List of Books Published by T.Y.Hsu(Xu Zuyao)with His Co-workers(1951 to 2000) 659