王章维博士，中南大学特聘教授、博/硕士生导师、入选国家级人才青年项目、德国马普学会钢铁研究所洪堡学者。研究方向包括高熵合金和轻质高强钢，在合金设计和强韧化机制研究等领域取得了一系列突出的原创成果。以第一作者、共同第一作者及通讯作者在Science, Nature Communications, Science Advances, Acta Materialia等国内外学术刊物发表SCI论文20余篇，授权美国专利1项，在TMS等多个国际会议作邀请报告，长期担任多个国际学术期刊的审稿人。

Research Gate: https://www.researchgate.net/profile/Zhangwei-Wang-3/research;

Google Scholar: https://scholar.google.com/citations?user=n3TSNXUAAAAJ&hl=en 

诚邀材料、力学和物理等学科背景的博士后、硕博与本科生加入团队！

联系方式： z.wang@csu.edu.cn

代表性论文：

[1] F. Wang^#, M. Song^#, M. Elkot, N. Yao, B. Sun, M. Song*, Z. Wang*, D. Raabe*, Shearing brittle intermetallics enhances cryogenic strength and ductility of steels, Science, 384 (2024) 1017-1022.

[2] Y. Li*, Y. Wei, Z.Wang*, X. Liu, T. Colnaghi, L. Han, Z. Rao, X. Zhou, L. Huber, R. Dsouza, Y. Gong, J. Neugebauer, A.s Marek, M. Rampp, S. Bauer, H. Li, I. Baker, L. Stephenson, B. Gault*, Quantitative three-dimensional imaging of chemical short-range order via machine learning enhanced atom probe tomography, Nature Communications 14, (2023) 7410.

[3] X. Zhang, Y. Gui, M. Lai, X. Lu, J. Gu, F. Wang, T. Yang, Z. Wang*, M. Song*, Enhanced strength-ductility synergy of medium-entropy alloys via multiple level gradient structures, International Journal of Plasticity, 164 (2023) 103592.

[4] W. Lu^#,*, W. Guo^#, Z. Wang*, J. Li, F. An, G. Dehm, D. Raabe, C. Liebscher*, Z. Li*, Advancing strength and counteracting embrittlement by displacive transformation in heterogeneous high-entropy alloys containing sigma phase, Acta Materialia, 246 (2023) 118717.

[5]  Z. Wang*, W. Lu*, F. An, M. Song, D. Ponge, D. Raabe, Z. Li*, High stress twinning in a compositionally complex steel of very high stacking fault energy, Nature Communications, 13 (2022) 3598.

[6] Z. Wang*, W. Lu*, H. Zhao, C. Liebscher, J. He, D. Ponge, D. Raabe, Z. Li*, Ultrastrong lightweight compositionally complex steels via dual-nanoprecipitation, Science Advances 6 (2020) eaba9543.

[7] Z. Wang*, W. Lu*, H. Zhao, J. He, K. Wang, B. Zhou, D. Ponge, D. Raabe, Z. Li*, Formation mechanism of κ-carbides and deformation behavior in Si-alloyed FeMnAlC lightweight steels, Acta Materialia, 198 (2020) 258-270.

[8] Z. Wang, I. Baker*, W. Guo, J. D. Poplawsky, The effect of carbon on the microstructures, mechanical properties, and deformation mechanisms of thermo-mechanically treated Fe_40.4Ni_11.3Mn_34.8Al_7.5Cr₆ high entropy alloys, Acta Materialia, 126 (2017) 346-360.

[9] Z. Wang, I. Baker*, Z. H. Cai, S. Chen, J. D. Poplawsky, W. Guo, The effect of interstitial carbon on the mechanical properties and dislocation substructure evolution in Fe_40.4Ni_11.3Mn_34.8Al_7.5Cr₆ high entropy alloys, Acta Materialia, 120 (2016) 228-239.