Общедоступные статьи - Wei Wen (温炜)Подробнее...
4 статьи недоступны нигде
A microstructure-based model for describing the material properties of Al–Zn alloys during high pressure torsion
M Borodachenkova, F Barlat, W Wen, A Bastos, JJ Grácio
International Journal of Plasticity 68, 150-163, 2015
Финансирование: Fundação para a Ciência e a Tecnologia, Portugal
Compressive property and shape memory effect of 3D printed continuous ramie fiber reinforced biocomposite corrugated structures
P Cheng, K Wang, X Chen, A Le Duigou, Y Peng, W Wen
Smart Materials and Structures 31 (12), 124003, 2022
Финансирование: National Natural Science Foundation of China
Modeling of the mechanical behavior and texture evolution in Zn alloys during reverse shear loading
M Borodachenkova, W Wen, F Barlat, A Pereira, J Grácio
Journal of Materials Processing Technology 224, 143-148, 2015
Финансирование: Fundação para a Ciência e a Tecnologia, Portugal, European Commission
Modeling of the Mechanical Response During Reversal Shear Loading: Application to Steels
W Wen, M Borodachenkova, F Barlat, J Liao, JJ Grácio
steel research international 87 (7), 850-858, 2016
Финансирование: Fundação para a Ciência e a Tecnologia, Portugal
22 статьи доступны в некоторых источниках
Mechanical behavior of Mg subjected to strain path changes: Experiments and modeling
W Wen, M Borodachenkova, CN Tomé, G Vincze, EF Rauch, F Barlat, ...
International Journal of Plasticity 73, 171-183, 2015
Финансирование: US Department of Energy, Fundação para a Ciência e a Tecnologia, Portugal
Mechanical behavior of low carbon steel subjected to strain path changes: Experiments and modeling
W Wen, M Borodachenkova, CN Tomé, G Vincze, EF Rauch, F Barlat, ...
Acta Materialia 111, 305-314, 2016
Финансирование: US Department of Energy, Fundação para a Ciência e a Tecnologia, Portugal
Mechanism-based modeling of thermal and irradiation creep behavior: An application to ferritic/martensitic HT9 steel
W Wen, A Kohnert, MA Kumar, L Capolungo, CN Tomé
International Journal of Plasticity 126, 102633, 2020
Финансирование: US Department of Energy
Application of machine learning methods on dynamic strength analysis for additive manufactured polypropylene-based composites
R Cai, K Wang, W Wen, Y Peng, M Baniassadi, S Ahzi
Polymer Testing 110, 107580, 2022
Финансирование: National Natural Science Foundation of China
Mechanical response of stainless steel subjected to biaxial load path changes: Cruciform experiments and multi-scale modeling
MV Upadhyay, A Patra, W Wen, T Panzner, S Van Petegem, CN Tomé, ...
International Journal of Plasticity 108, 144-168, 2018
Финансирование: US Department of Energy, European Commission
On the first direct observation of de-twinning in a twinning-induced plasticity steel
SJ McCormack, W Wen, EV Pereloma, CN Tomé, AA Gazder, AA Saleh
Acta Materialia 156, 172-182, 2018
Финансирование: US Department of Energy, Australian Research Council
A comparative study between micro-and macro-mechanical constitutive models developed for complex loading scenarios
Y Jeong, F Barlat, CN Tomé, W Wen
International Journal of Plasticity 93, 212-228, 2017
Финансирование: Fundação para a Ciência e a Tecnologia, Portugal
Tailoring interfacial properties of 3D-printed continuous natural fiber reinforced polypropylene composites through parameter optimization using machine learning methods
R Cai, W Wen, K Wang, Y Peng, S Ahzi, F Chinesta
Materials Today Communications 32, 103985, 2022
Финансирование: National Natural Science Foundation of China
Mechanism-based modeling of solute strengthening: application to thermal creep in Zr alloy
W Wen, L Capolungo, CN Tomé
International Journal of Plasticity 106, 88-106, 2018
Финансирование: US Department of Energy
A physics-based crystallographic modeling framework for describing the thermal creep behavior of Fe-Cr alloys
W Wen, L Capolungo, A Patra, CN Tomé
Metallurgical and Materials Transactions A 48, 2603-2617, 2017
Финансирование: US Department of Energy
Analysis of shear deformation by slip and twinning in low and high/medium stacking fault energy fcc metals using the ϕ-model
S M’Guil, W Wen, S Ahzi, JJ Gracio, RW Davies
International Journal of Plasticity 68, 132-149, 2015
Финансирование: Fundação para a Ciência e a Tecnologia, Portugal
Modelling stress relaxation after hot deformation: Microstructure-property relationships in Nb-bearing steels
J Zhao, Q Yang, HE Sabzi, W Wen, PEJ Rivera-Díaz-del-Castillo
International Journal of Plasticity 151, 103219, 2022
Финансирование: National Natural Science Foundation of China, UK Engineering and Physical …
Data-driven constitutive model for the inelastic response of metals: Application to 316H steel
AE Tallman, MA Kumar, A Castillo, W Wen, L Capolungo, CN Tomé
Integrating Materials and Manufacturing Innovation 9, 339-357, 2020
Финансирование: US Department of Energy
A defect density-based constitutive crystal plasticity framework for modeling the plastic deformation of Fe-Cr-Al cladding alloys subsequent to irradiation
A Patra, W Wen, E Martinez Saez, C Tome
Los Alamos National Laboratory (LANL), 2016
Финансирование: US Department of Energy
Multiscale Multiphysics Developments for Accident Tolerant Fuel Concepts
KA Gamble, JD Hales, J Yu, Y Zhang, X Bai, D Andersson, A Patra, ...
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2015
Финансирование: US Department of Energy
Experimental and self-consistent modeling study of de-twinning in a twinning-induced plasticity steel
AA Saleh, W Wen, EV Pereloma, SJ McCormack, CN Tomé, AA Gazder
JOM 71, 1396-1403, 2019
Финансирование: US Department of Energy, Australian Research Council
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