职称:副教授
专业:材料科学与工程
Email:weiranmse@zzu.edu.cn
学习工作情况:
2005年9月-2009年6月,郑州大学(获学士学位);
2009年9月-2014年11月,西安交通大学(获博士学位);
2014年12月-2021.12讲师。
2022年- 副教授
研究领域:
先进金属材料的力学行为、耐腐蚀行为。
以第一作者或通讯作者在Scripta Materialia,Corrosion Science,Journal of Materials Science & Technology等知名期刊发表 SCI论文40余篇,已授权发明专利 5项 ,担任十几种SCI期刊审稿人。
教学情况:
《铸造合金及熔炼》
《材料成型原理》
《材料加工新技术》。
主持项目:主持国家基金 1项,省部级项目 3项。
TRIP铁基中熵合金的多尺度异构调控与协同强韧化机理研究,国家自然科学基金,批准号: 52101053。
高强度-高塑性铁基中熵合金的研发,河南省重点研发与推广专项(科技攻关),批准号:232102231025。
由软磁非晶相转变为纳米高熵固溶相的相变机理研究,中国博士后科学基金一等资助,编号:2018M630834 已结项。
新型高熵软磁非晶合金及其关键冷却装置的研发,河南省重点研发与推广专项(科技攻关),2019-2020,已结项。
发表论文30余篇(https://www.researchgate.net/profile/Ran_Wei51)
[1] Zhenhua Han, Ran Wei* Corrosion resistant body-centered cubic VNbTa refractory medium-entropy alloy. Corrosion Science 229 (2024) 111885
[2] Chenyu Zhai, Ran Wei* A novel corrosion resistant NiFeCrAlTi eutectic high entropy alloy with high strength and ductility. Materials Characterization 218 (2024) 114479
[3] Qiuyu Gao, Ran Wei*. Achieving ultra-high mechanical properties in metastable Co-free medium entropy alloy via hierarchically heterogeneous microstructure. Journal of Materials Science & Technology 183 (2024) 175–183
[4] Qiuyu Gao, Ran Wei* et al. Ultrahigh cryogenic strength and ductility in a duplex metastable ferrous medium-entropy alloy. Scripta Materialia 228 (2023) 115334
[5] Ran Wei, et al. Heterogeneous-structure-induced ultrahigh strength and ductility in a metastable dual-phase Fe60Cr15Ni16Al9 medium entropy alloy. Materials Science & Engineering A 867 (2023) 144710
[6] Zhen Jiang, Ran Wei*, et al. Achieving high strength and ductility in Fe50Mn25Ni10Cr15 medium entropy alloy via Al alloying, Journal of Materials Science and Technology, 100 (2022) 20–26
[7] Chen Chen,.. Ran Wei*, et al Synthesis of ultrafine dual-phase structure in CrFeCoNiAl0.6 high entropy alloy via solid-state phase transformation during sub-rapid solidification. Journal of Materials Science & Technology 113 (2022) 253–260
[8] Ran Wei, et al. The effect of Co substitutions for Ni on microstructure, mechanical properties and corrosion resistance of Fe50Mn25Cr15Ni10 medium-entropy alloy. Intermetallics 149 (2022) 107654
[9] Ran Wei, et al. A comparison of the mechanical and corrosion behavior of Fe49.5Mn25Cr15Ni10C0.5 medium-entropy alloy with its subsystems steels. Intermetallics 151 (2022) 107736
[10] Ran Wei, et al. Novel Co-free high performance TRIP and TWIP medium-entropy alloys at cryogenic temperatures. Journal of Materials Science and Technology, 57 (2020) 153–158.
[11] Ran Wei, et al., Toughening FeMn-based high-entropy alloys via retarding phase transformation. Journal of Materials Science and Technology, 51 (2020)167–172.