 |
Donald Brown
Los Alamos National Laboratory, USA
Microstructural Evolution of a UNb Shape Memory Alloy During
Elevated Temperature Aging
|
|
| |
 |
Ashley Bucsek
University of Michigan, USA
Probing Martensitic Phase Transformations
and Twinning Across Length Scales Using 3D X-Ray Microscopy |
|
| |
 |
Cyril Cayron
Swiss Federal Institute of Technology in Lausanne, Switzerland
The Transformation Matrices and Their Variants
|
|
| |
 |
Markus Chmielus
University of Pittsburgh, USA
Beam- and Non-Beam-based Additive Manufacturing and Post-Processing
of
Magnetocaloric and Magnetic-Shape-Memory Materials |
|
| |
 |
Eunsoo Choi
Hongik University, Korea
Crimped Short Reinforcing Fibers using Cold Drawn NiTi SMA Wires |
|
| |
 |
Shi-Hoon Choi
Sunchon National University, Korea
Development of Research Methodologies for Comprehending the Effect of Martensite
on
Deformation and Fracture Behavior of Multi-Phase Steels
|
|
| |
 |
Yoon Suk Choi
Pusan National University, Korea
Microstructures and Defects of Medium-Carbon Steel Layers Additively Deposited
on Gray Cast Iron |
|
| |
 |
Yury Chumlyakov
Tomsk State University, Russia
Shape Memory Effect and Superelasticity in FeNiCoAlX (X=Ta, Nb, Ti) High-Strength Crystals due to Thermoelastic γ-α'- Martensitic Transformation at Tension and Compression
|
|
| |
 |
Daoyong Cong
University of Science and Technology Beijing, China
Exploration of Novel Shape Memory Alloys for Elastocaloric Refrigeration
|
|
| |
 |
Gunther Eggeler
Ruhr-Universität Bochum, Germany
Shape Memory Alloy Composition, Gibbs Free Energies and Martensite Start Temperatures - on the Importance of Enthalpy and Entropy
|
|
| |
 |
Georgiy S. Firstov
G. V. Kurdyumov Institute for Metal Physics of the N.A.S. of Ukraine, Ukraine
High Entropy Shape Memory Alloys Development: Structure, Properties, Opportunities |
|
| |
 |
Thierry Gloriant
University of Rennes, INSA Rennes, France
Design of Martensitic Titanium-based Alloys for Vascular Stent Applications
|
|
| |
 |
Markus Ernst Gruner
University of Duisburg‐Essen, Germany
A First-Principles Perspective on the Interplay of Magnetism
and Microstructure in Ni-Mn-based Heusler Alloys |
|
| |
 |
Yulin Hao
Institute of Metal Research, Chinese Academy of Sciences, China
Tracing Atomic Rearrangement of a Reversible Transition
in
a Multifunctional Titanium Alloy |
|
| |
 |
Oleg Heczko
Institute of Physics of the Czech Academy of Sciences, Czech
Role of Antiphase Boundaries in Martensitic Transformation
and Magnetic
Shape Memory Effect
|
|
| |
 |
Yoon-Uk Heo
Pohang University of Science and Technology, Korea
Electron Microscopic Study of Stress-assisted Martensitic Transformation
in a Medium Manganese Steel |
|
| |
 |
Jae-Keun Hong
Korea Institute of Materials Science, Korea
Multiscale Microstructures in Titanium Alloys Manufactured by Additive Manufacturing |
|
| |
 |
Hideki Hosoda
Tokyo Institute of Technology, Japan
New Evaluation Methods for Martensitic Transformation Behavior
of
Shape Memory Alloys |
|
| |
 |
Huilong Hou
University of Maryland, USA
Fatigue-Resistant High-performance Elastocaloric Materials Made
by
Additive Manufacturing |
|
| |
 |
Mingxin Huang
The University of Hong Kong, Hong Kong
Revisit the TRIP Effect on Work Hardening Behavior of Steel at High Strain Rate |
|
| |
 |
HyunWoo Jin
ExxonMobil Research & Engineering, USA
Martensite in Oil and Gas Industry: State-of-the-art Applications & Future Opportunities
|
|
| |
 |
Ibrahim Karaman
Texas A&M University, USA
Use of Machine Learning and Data Science for the Design of Shape Memory Alloys –
A Metallurgist Approach
|
|
| |
 |
Do Hyang Kim
Yonsei University, Korea
Ti-Ni Based Shape Memory Alloy Exhibiting High Glass Forming Ability
|
|
| |
 |
Manfred Kohl
Karlsruhe Institute of Technology, Germany
Shape Memory Nanoactuators for Photonics Applications
|
|
| |
 |
Tae-Ho Lee
Korea Institute of Materials Science, Korea
Screw Dislocation Driven Martensitic Nucleation
|
|
| |
 |
Taekyung Lee
Pusan National University, Korea
Martensitic Transformation in Ti-13Nb-13Zr Alloy for Surgical Implant Applications
|
|
| |
 |
Young-Kook Lee
Yonsei University, Korea
Stasis Mechanism of γ → ε Martensitic Transformation in Fe-17Mn Alloy |
|
| |
 |
Valery Levitas
Iowa State University, USA
Phase Field Approaches to Interaction between Martensitic Phase Transformations
and Dislocation Evolution
|
|
| |
 |
Chenglin Li
Wuhan University, China
TWIP and TRIP behavior in Beta Titanium Alloys
|
|
| |
 |
Yan Li
Beihang University, China
Ti-Zr-Nb Shape Memory Alloys for Biomedical Applications |
|
| |
 |
Yinong Liu
The University of Western Australia, Australia
NiTi as a Means to Induce Ultra-Large Elastic Strains in Other Materials |
|
| |
 |
Haiwen Luo
University of Science and Technology Beijing, China
Substantial Strengthening of Medium Mn Steel due to the Reverse Martensite-like
Austenitic Transformation during Ultrafast Heating |
|
| |
 |
Qingsong Mei
Wuhan University, China
Effect of Plastic Deformation on the Microstructure and Phase Transformation
of NiTi Alloys
|
|
| |
 |
Xianglong Meng
Harbin Institute of Technology, China
Martensite Microstructure and Shape Memory Effect of a Ti-16Nb High Temperature Shape Memory Alloy Subjected to Thermomechanical Treatment
|
|
| |
 |
Xiaohua Min
Dalian University of Technology, China
Metastable Phase Evolution and Deformation Mode Transition in β-type Titanium Alloys |
|
| |
 |
Goro Miyamoto
Tohoku University, Japan
Comparison of Driving Force Necessary for Bainite and Martensite
Transformations in Steels
|
|
| |
 |
Shigekazu Morito
Shimane University, Japan
Crystallographic Features in Three Dimensional Microstructures
of
Fe-C-Mn Lath Martensite
|
|
| |
 |
Nobuo Nakada
Tokyo Institute of Technology, Japan
Development of Internal Stress of Plate Martensite via Fcc-hcp Martensitic
Transformation in Metastable Austenitic Stainless Steels
|
|
| |
 |
Takayoshi Nakano
Osaka University, Japan
Control of Microstructure and Atomic Arrangement in Unstable β-type Ti Alloys by
Metal Additive Manufacturing Process
|
|
| |
 |
Minoru Nishida
Kyushu University, Japan
Recent Microstructure Characterizations in Ti-Ni Based Shape Memory Alloys |
|
| |
 |
Takahito Ohmura
National Institute for Materials Science, Japan
Nano-Mechanical Characterization in Constituent Phases of Steels for
Interpretation of
Macroscopic Deformation Behavior
|
|
| |
 |
Gregory B. Olson
Northwestern University, USA
Design of Fatigue-Resistant NiTi-based Shape Memory Alloys
|
|
| |
 |
Chan Hee Park
Korea Institue of Materials Science, Korea
An Effective Approach to Produce a Nanocrystalline Ni–Ti Shape Memory Alloy
without Severe Plastic Deformation |
|
| |
 |
Eun Soo Park
Seoul National University, Korea
Development of Fatique-resistant High-Performance Elastocaloric TiCu-based
Superelastic Alloys
|
|
| |
 |
Etienne Patoor
Georgia Tech Lorraine, France
Multiscale Modeling of Shape Memory Alloys Behavior |
|
| |
 |
Elena V. Pereloma
Wollongong University, Australia
Deformation-Induced Phase Transformations in Metastable Beta Ti-10V-3Al-xFe Alloys
|
|
| |
 |
Antoni Planes
University of Barcelona, Spain
Ferromagnetic Heusler Shape-Memory Alloys: Materials for Energy Applications
|
|
| |
 |
Frédéric Prima
ChimieParisTech (National Chemical Engineering Institute in Paris), France
New Strain-Transformable Titanium Alloys Displaying Combined TRIP and TWIP Effects:
From Design Approaches to Deformation Mechanisms
|
|
| |
 |
Sergey Prokoshkin
National University of Science and Technology "MISiS", Russia
Search for Critical Austenite Grain Size Limiting Stress-Induced Transformation
in
Titanium Nickelide |
|
| |
 |
Eckhard Quandt
Kiel University, Germany
The Role of Supercompatibility on the Fatigue of Shape Memory Alloys |
|
| |
 |
Natalia Resnina
Saint-Petersburg State University, Russia
Damage of the Martensite Interfaces as the Mechanism
of
the Martensite Stabilization Effect in NiTi Alloys |
|
| |
 |
Pedro Rivera-Diaz-del-Castillo
Lancaster University, United Kingdom
Predicting Martensitic Transformation in Titanium Alloys |
|
| |
 |
Jose M. San Juan
Universidad del País Vasco, Spain
Overview on Size Effects at Nanoscale in Cu-based Shape Memory Alloys:
Universal Scaling Law |
|
| |
 |
Takahiro Sawaguchi
National Institute for Materials Science, Japan
Seismic Response Control of Buildings with Fe−high Mn Alloys with
Dual γ/ε Phase Deformation Microstructure
|
|
| |
 |
Avadh Saxena
Los Alamos National Laboratory, USA
Flexocaloric Effects in Ferroic Materials: Thermodynamics of Bending |
|
| |
-Schryvers.jpg) |
Dominique (Nick) Schryvers
University of Antwerp, Belgium
In–situ TEM Stress–induced Martensitic Transformation and Short Range Order in Ni-Ti
|
|
| |
 |
Dongyi Seo
National Research Council Canada, Canada
Microstructures and High Cycle Fatigue Properties of Ti-Al-Fe-Si Based Alloys
|
|
| |
 |
Oleg Shchyglo
Ruhr-Universität Bochum, Germany
Phase-field Modeling Approach for Martensite Microstructure Formation
in
Low-carbon Steel |
|
| |
 |
Akinobu Shibata
Kyoto University, Japan
Microstructural and Crystallographic Studies on Hydrogen-related Fracture
in
Martensitic Steels |
|
| |
 |
Petr Sittner
Institute of Physics of the Czech Academy of Sciences, Czech
Transformation – Plasticity Coupling in Thermomechanical Loading of NiTi
|
|
| |
 |
Aaron Stebner
Colorado School of Mines, USA
Additive Manufacturing of NiTi-based Shape Memory Alloys |
|
| |
 |
Dong-Woo Suh
Pohang University of Science and Technology, Korea
Microstructure and Mechanical Properties of Medium Carbon Martensite-Bainite
Complex Phase Steels
|
|
| |
 |
Qingping Sun
Hong Kong University of Science and Technology, China
Super-high Fatigue Life of NiTi SMA at Marco- and Microscales |
|
| |
 |
Ichiro Takeuchi
University of Maryland, USA
Development of Compression-based Elastocaloric Cooling Systems Based
on Superelastic Shape Memory Alloys |
|
| |
 |
Cem Tasan
Massachusetts Institute of Technology, USA
How Human Hair Deforms Ferrous Martensite: An In-Situ Study
|
|
| |
 |
Koichi Tsuchiya
National Institute for Materials Science, Japan
FCC-HCP Martensitic Transformation and Shape Memory Effect in High-Entropy Alloys
|
|
| |
 |
Toshihiro Tsuchiyama
Kyushu University, Japan
Evaluation of Dislocation Density and Dislocation Distribution in Lath Martensite
|
|
| |
 |
Kaneaki Tsuzaki
Kyushu University, Japan
A Mystery of Hydrogen Effects in Steel: Suppression and Promotion of
Thermally-and Deformation-induced Epsilon Martensitic Transformations |
|
| |
 |
Martin Franz-Xaver Wagner
Technische Universität Chemnitz, Germany
Analysis of Dislocation-twin Boundary Interaction in NiTi
and
NiTiCu Martensites during Stress Relaxation |
|
| |
 |
Xiebin Wang
Shandong University, China
Approaches to Improve the Functional Stability of NiTi Shape Memory Alloys |
|
| |
 |
Yunzhi Wang
The Ohio State University, USA
Phase Transformation Graph and Transformation Pathway Engineering
for High Performance Shape Memory Alloys |
|
| |
 |
Fei Xiao
Shanghai Jiao Tong University, China
Inverse Elastocaloric Effect in the Ti-Ni Shape Memory Alloy
|
|
| |
 |
Ren Xiaobing
National Institute for Materials Science, Japan
Designing Hysteresis-free Shape Memory Alloys by a Triple-point Strategy
|
|
| |
 |
Hongliang Yi
Northeastern University, China
Novel Concepts for Retention of Nano-sized Austenite Films to
Improve Ductility
of Press-hardening Steels:
Quenching and Flash-partitioning, Quenching and Bake-partitioning |
|
| |
 |
Kaiyuan Yu
China University of Petroleum-Beijing, China
Ultra-high Superelastic Stresses Over Wide Temperature Range
in
Bulk Nanograined NiTi-based Alloys |
|
| |
 |
Mohsen Asle Zaeem
Colorado School of Mines, USA
Multiscale Modeling Study of Deformation Mechanisms and Flaw Tolerance
of
Shape Memory Ceramics
|
|
| |
