Chuanjie Wang | Materials Processing | Best Researcher Award

Prof. Chuanjie Wang | Materials Processing | Best Researcher Award

Professor at the Harbin Institute of Technology, China

Chuanjie Wang is a professor at the Harbin Institute of Technology at Weihai, where he has been affiliated since 2013. With a Web of Science ResearcherID of AAI-5057-2021 and an ORCiD of 0000-0002-5171-7322, his research focuses on materials processing. He has published 71 papers, garnering an H-index of 15 and 730 citations. Notable publications include studies on titanium thin sheets and nickel-based superalloys. His work is frequently featured in journals such as Materials Science and Engineering: A and Integrated Ferroelectrics. His contributions significantly impact the field of materials science and engineering. Materials Processing

Professional Profiles

Education

Harbin Institute of Technology at Weihai (since 2013)

Professional Role

Professor Department of Materials Processing, Harbin Institute of Technology. Materials Processing

Research Focus

Chuanjie Wang is a professor at the Harbin Institute of Technology at Weihai, specializing in materials processing. His research encompasses micro/nanoforming, deformation behavior, and the mechanical properties of metals, particularly nickel-based superalloys. He has published extensively, with significant works in journals such as Materials & Design and Materials Science and Engineering: A. Wang’s contributions include developing constitutive models, studying frictional behavior in metal forming, and investigating size effects in plastic deformation. His research has garnered an H-index of 15 and 730 citations, reflecting his impact on the field of materials science and engineering. Materials Processing

Publications

  1. Thermal stability of WO3 doped tellurite glass and spectral properties of Er3+/Yb3+ doped tellurium⁃ tungstate glass, Publication date: 2024.
  2. Evolution of fatigue mechanical properties and micro defects in nickel-based single crystal superalloys: A molecular dynamics research, Publication date: 2023.
  3. Experiment and modeling based studies of the mesoscaled deformation and forming limit of Cu/Ni clad foils using a newly developed damage model, Publication date: 2022.
  4. Effect of polycaprolactone impregnation on the properties of calcium silicate scaffolds fabricated by 3D printing, Publication date: 2022.
  5. Microstructures and properties of polycaprolactone/tricalcium phosphate scaffolds containing polyethylene glycol fabricated by 3D printing, Publication date: 2022.
  6. Investigation on forming methods in rubber pad forming process used for fabricating Cu/Ni clad foil microchannel, Publication date: 2022.
  7. Influence of heat treatment on the texture, microstructure and tensile deformation behaviours of cold rolled FeCoNiCr sheets, Publication date: 2022.
  8. Construction and Exploration of Innovative Researching Course” Theory and Technology of Microforming”, Publication date: 2022.
  9. Multi-Dimensional Revealing the Influence Mechanism of the δ Phase on the Tensile Fracture Behavior of a Nickel-Based Superalloy on the Mesoscopic ScalePublication date: 2022.
  10. Anisotropy in mechanical properties during microscale uniaxial tensile deformation of Cu/Ni clad foils, Publication date: 2019.
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