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Assist Prof Dr. Qian Wang| Welding Award  |  Best Researcher Award.

Osaka University,Japan

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👨‍🎓 Bio Summary:

Assistant Prof. Dr. Qian Wang is a researcher specializing in Cold Spray, Additive Manufacturing, and Welding. She holds a Bachelor’s degree from Chongqing University, a Master’s degree from Harbin Institute of Technology, and a Doctoral Degree of Engineering from Osaka University. Currently, she serves as an Assistant Professor at Osaka University, focusing on material model development, additive manufacturing of high-strength structures, and properties of conductive adhesive. Dr. Wang has received several honors, including the Japanese Government (MEXT) Scholarship and the Excellent Paper Award at the International Conference of Welding Science and Engineering. She has published research in journals such as Additive Manufacturing and Acta Materialia and has presented her work at international conferences.

🎓 Education:

Dr. Qian Wang earned her Bachelor’s degree in Engineering from Chongqing University, her Master’s degree from Harbin Institute of Technology, and her Doctoral Degree of Engineering from Osaka University. She also pursued a short period of doctoral study at Shanghai Jiao Tong University.

🔍 Research Focus:

Her research interests lie in Cold Spray, Additive Manufacturing, and Welding. Specifically, she has worked on material model development for accurate analysis of cold spraying induced dynamic plasticity, additive manufacturing of high-strength structures, and properties of conductive adhesive for green packaging.

🏆 Honors & Awards:

Dr. Wang has received numerous awards and honors, including the Japanese Government (MEXT) Scholarship, the Excellent Paper Award at the International Conference of Welding Science and Engineering, and several scholarships for academic excellence.

Professional Experience: 💼

Currently, she serves as an Assistant Professor at the Joining and Welding Research Institute at Osaka University. Prior to this, she held the position of Specially Appointed Assistant Professor at the same institute.

📚 Top Noted Publications :

“Unrevealing the wetting behavior and mechanism of AgCuTi filler on negative thermal expansion Sc2W3O12 materials: Experiments and First-principles calculations”
Authors: Wang, P., Liu, W., Li, J., … Wang, Q., Li, W.
Journal: Applied Surface Science, 2024, 652, 159257
Abstract: This study investigates the wetting behavior and mechanism of AgCuTi filler on negative thermal expansion Sc2W3O12 materials through experiments and first-principles calculations.

“Role of Nb elements in SiCf/SiC/(CoFeNiCrMn)100-xNbx/GH536 brazed joints: Joint residual stress transfer and pinning of dislocations”
Authors: Zhao, S., Nai, X., Chen, H., … Wang, P., Li, W.
Journal: Materials Science and Engineering: A, 2024, 891, 145914
Abstract: This article explores the role of Nb elements in SiCf/SiC/(CoFeNiCrMn)100-xNbx/GH536 brazed joints, focusing on joint residual stress transfer and the pinning of dislocations.

“Robust joining of FGH98 superalloy to DD5 single crystal by modulating interdiffusion behavior with Ni/high-entropy alloy hybrid interlayer”
Authors: Shi, J., Guo, H., Jin, F., … Yang, J., Ma, N.
Journal: Science China Materials, 2023, 66(12), pp. 4875–4885
Abstract: This open-access article discusses the robust joining of FGH98 superalloy to DD5 single crystal by modulating interdiffusion behavior with Ni/high-entropy alloy hybrid interlayer.

“Unraveling microforging principle during in situ shot-peening-assisted cold spray additive manufacturing aluminum alloy through a multi-physics framework”
Authors: Wang, Q., Ma, N., Shi, J., … Zhang, X.-C., Li, C.-J.
Journal: Materials and Design, 2023, 236, 112451
Abstract: This article delves into the microforging principle during in situ shot-peening-assisted cold spray additive manufacturing of aluminum alloy through a multi-physics framework.

“Characteristics of residual stress distribution in wire-arc additive manufactured layers of low transformation temperature material”
Authors: Huang, W., Wang, Q., Ma, N., Kitano, H.
Journal: International Communications in Heat and Mass Transfer, 2023, 148, 107066
Abstract: This study examines the characteristics of residual stress distribution in wire-arc additive manufactured layers of low transformation temperature material.

“Elemental diffusion, atomic substitution mechanisms and interfacial fracture behavior in laser welded–brazed Al/Ti”
Authors: Tian, R., Chen, S., Yang, B., … Xia, H., Ma, N.
Journal: Materials Characterization, 2023, 202, 112998
Abstract: This article investigates elemental diffusion, atomic substitution mechanisms, and interfacial fracture behavior in laser welded–brazed Al/Ti structures.

.Author Metrics 📊 : 

Her research has been cited in various scholarly works, indicating the impact and relevance of her contributions to the field. She has also presented her work at numerous international conferences, further establishing her expertise in the field.

📅 Research Timeline:

Dr. Wang’s research timeline demonstrates a consistent dedication to advancing knowledge in Cold Spray, Additive Manufacturing, and Welding, showcasing her commitment to academic excellence and research innovation.

Assist Prof Dr Qian Wang | Welding Award | Best Researcher Award |

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