Prof. Xiang Chen is a leading expert in solid mechanics and materials science, currently serving as a Professor at Chongqing University of Posts and Telecommunications, China ποΈ. He holds a Ph.D. in Solid Mechanics π, specializing in smart materials, shape memory alloys, and high-entropy alloys βοΈ. His research focuses on mechanical behavior, tribology, nanoindentation, and molecular dynamics simulations π¬. With 10+ high-impact journal publications, he has contributed significantly to material characterization and structural analysis π. His expertise in finite element analysis and advanced alloys makes him a key innovator in mechanical and materials engineering π.
Prof Xiang Chen, Chongqing University of Posts and Telecommunications, China
Profile
SCOPUS
Education π
Prof. Xiang Chen pursued his higher education at Chongqing University, specializing in engineering mechanics and solid mechanics ποΈ. He earned his Bachelorβs degree (2006-2010) in Engineering Mechanics, focusing on smart materials βοΈ under the guidance of Prof. Xianghe Peng π¨βπ«. He continued his studies with a Masterβs degree (2010-2011) in Solid Mechanics, deepening his research in smart materials π¬. Prof. Chen then completed his Ph.D. (2011-2015) in Solid Mechanics, further advancing his expertise in mechanical behavior and material characterization π. His strong academic foundation has made him a leader in smart materials and structural engineering π.
ExperienceΒ ποΈ
Prof. Xiang Chen has built a distinguished career at Chongqing University of Posts and Telecommunications, contributing significantly to materials science and solid mechanics βοΈ. He began as a Lecturer (2015-2018) π, focusing on teaching and research. He was then promoted to Associate Professor (2018-2023), where he led cutting-edge research in smart materials and high-entropy alloys π¬. In 2023, he became a full Professor, further expanding his influence in mechanical behavior and structural engineering π. His academic leadership and innovative contributions have positioned him as a trailblazer in advanced materials research πβ¨.
Skills π οΈ
Prof. Xiang Chen is a leading expert in smart materials and solid mechanics, with specialized knowledge in shape memory alloys and high-entropy alloys βοΈ. His proficiency in nanoindentation and tribology enables him to analyze material wear and mechanical behavior precisely π. He utilizes molecular dynamics simulations to explore atomic-scale interactions π₯οΈ and employs finite element analysis for optimizing structural performance π. His groundbreaking research on microstructural behavior under mechanical and thermal conditions has advanced material characterization and engineering applications π. Prof. Chenβs expertise plays a vital role in developing next-generation materials for industrial and scientific use πβ¨.
Research Focus π¬
Prof. Xiang Chenβs research primarily focuses on solid mechanics, smart materials, and high-entropy alloys βοΈ. He explores the mechanical behavior of NiTi shape memory alloys, investigating their tribological properties, temperature effects, and indentation mechanics π. His work also includes shock compression studies on monocrystalline NiTi alloys and heat treatment effects on CuZr composites π₯. He applies molecular dynamics simulations and finite element analysis to predict material performance π₯οΈ. Additionally, Prof. Chen develops advanced composite materials for applications in biomedical stents and aerospace structures ππ₯. His groundbreaking studies enhance structural durability and material characterization πβ¨.
Publications π
Effects of heat treatment parameters and grain sizes on mechanical response of amorphous/crystalline CuZr composites
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- Authors: Yin, M., Duan, M., Fu, T., Chen, X., Peng, X.
- Journal: Mechanics of Materials π¬π
Structural Design of Negative Poissonβs Ratio NiTinol Stent and Its Performance in Vascular Support
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- Authors: Chen, X., Xiong, L., Fu, F., Zhao, Y., Kang, X.
- Journal: Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering π οΈ
Temperature dependence of tribological properties in NiTi shape memory alloy: A nanoscratching study
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- Authors: Chen, X., Guo, A., Wang, J., Lu, S., Fu, T.
- Journal: Tribology International π§βοΈ
Orientation-dependent multi-spall performance of monocrystalline NiTi alloys under shock compression
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- Authors: Chen, X., Wu, X., Yang, X., Pei, X., Wang, F.
- Journal: Materials Today Communications π§ͺπ
A multiscale mesh generation method for textile composite
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- Authors: Ma, Y., Chen, A., Deng, C., Lu, S., Zeng, X.
- Journal: Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica βοΈπ
Effect of Material Parameters on the Indentation Mechanical Behavior of Superelastic NiTi Shape Memory Alloy
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- Authors: Chen, X., Jiang, W., Lu, S., Fu, T., Peng, X.
- Journal: Journal of Materials Engineering and Performance π¬π
Deformation behavior and yield strength prediction of [112] oriented NbMoTaW refractory high entropy alloy nanowires
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- Authors: Tian, T., Fu, T., Duan, M., Chen, X., Peng, X.
- Journal: CrystEngComm π§ͺπ