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Jiancheng Chen

ORCID: 0000-0003-0650-9310
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About
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A5015590853
Research Areas
  • Electromagnetic Effects on Materials
  • Surface Treatment and Residual Stress
  • Microstructure and mechanical properties
  • Microstructure and Mechanical Properties of Steels
  • Metallurgy and Material Forming
  • Fatigue and fracture mechanics
  • Simulation and Modeling Applications
  • Advanced Computational Techniques and Applications
  • Metal Forming Simulation Techniques
  • Educational Technology and Pedagogy
  • Material Properties and Failure Mechanisms
  • High-Velocity Impact and Material Behavior

Wuhan University of Technology
 2023-2024

 Predictive mechanical property and fracture behavior in high-carbon steel containing high-density carbides via artificial RVE modeling
OPENALEX - Publications 
Huiling Wang Dongsheng Qian Feng Wang Zhaohua Dong Jiancheng Chen

10.1016/j.matdes.2024.113383 article EN cc-by-nc-nd Materials & Design 2024-10-18
 Electric current-induced directional slip of dislocation and grain boundary ordering
OPENALEX - Publications 
Dongsheng Qian Jiancheng Chen Hao Luo Feng Wang Lin Hua

10.1016/j.mtadv.2024.100530 article EN cc-by-nc Materials Today Advances 2024-09-20
 Nondestructive characterization of stress state changes induced by electromagnetic shocking treatment
OPENALEX - Publications 
Dongsheng Qian Guang Ran Feng Wang Jiancheng Chen Jiadong Deng

10.1016/j.matchar.2025.114943 article EN Materials Characterization 2025-03-01
 Predictive Damage Evolution and Fracture Behavior in High-Carbon Steel Via Multiscale Simulation and Experiments
OPENALEX - Publications 
Huiling Wang Feng Wang Dongsheng Qian Zhaohua Dong Han Tian and 2 more Lin Hua Jiancheng Chen

High-carbon steel consisting of soft ferrite and hard cementite is susceptible to micro-defects owing the mismatched deformation between during cold forming, which seriously deteriorates fatigue life. However, investigation damage failure behavior in high-carbon remains largely undisclosed, hinders further control microstructure forming process. The current work investigates evolution fracture related microstructural characteristics spheroidized ferrite-cementite steel. A multiscale modeling...

10.2139/ssrn.4721166 preprint EN 2024-01-01
 Electromagnetic-Shocking-Induced Interface Healing and Mechanical Properties Improvement in Pre-Bonded Stainless Steel
OPENALEX - Publications 
Min Wu Jiancheng Chen Jiadong Deng Feng Wang Qian Sun

Hot-deformation pre-bonding is a newly developed method to avoid smelting defects in large stainless steel billets, which the high-quality interfacial connection needs be realized as key guarantee. In this work, novel electromagnetic shocking treatment (EST) method, special way apply an external physical field, was proposed introduce hot-deformation pre-bonded austenitic steel. It demonstrated that EST can efficiently optimize interface and restore tensile properties of within several...

10.3390/met13122004 article EN cc-by Metals 2023-12-13
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