个人简介:
王晔,男,1984年生,教授、博士生导师、硕士生导师。长期从事有色合金凝固过程调控、相变理论、合金设计及其结构-性能调控,轻合金凝固加工和精密成形,废铝绿色再生成形方向研究,主持国家自然科学基金2项,参与多项国家和省级项目,以第一/通信作者发表学术论文70余篇,其中SCI论文30余篇,发明专利多项。任《Journal of Magnesium and Alloys》、《China Foundry》、《铸造》、《特种铸造及有色合金》等期刊青年及《精密成形工程》通讯编委。
教育工作经历:
博士 材料加工工程 哈尔滨工业大学 (2009-2015)
硕士 材料加工工程 哈尔滨工业大学 (2007-2009)
学士 材料成型及控制工程 哈尔滨工业大学 (2002-2006)
哈尔滨理工大学 材料科学与化学工程学院 2015年-至今
研究方向:
合金凝固过程数值模拟;
高性能轻合金结构-功能设计、开发与应用;
铝合金绿色再生成型制备技术;
金属材料特种凝固成形设备与工艺;
科研项目:
国家自然科学基金,废屑品位调控原位转变铝基再生材料界面结构及增强机理研究,(Grant No.51801045),主持;
国家自然科学基金,强韧导热一体化Al-Si合金成分设计、微观组织调控与性能增效机制,(Grant No. 52171113),主持;
国家自然科学基金,低压铸造过程弹性波传播对两相区补缩的作用机理,(Grant No.51475120),参与;
教育部重点实验室开放课题项目,强磁场对铝屑半固态再生合金微观组织的影响及调控,(Grant No. KF2002),主持;
黑龙江省“百千万工程”科技重大专项,新能源汽车高端铝合金承力件智能成型关键技术研发及示范,(Grant No. 2021ZX05A02),参与;
国家重点研发计划子课题,高性能铝合金车辆承力结构件的挤压铸造成形关键技术,Grant No. 2019YFB2006503),参与;
国家重点实验室开放课题基金,基于适体坐标系下的铸造凝固过程数值模拟的研究,(Grant No.09-04),参与;
科技重大专项子课题,大型高质量铸件的材料冶炼与成型控制技术,(Grant No.2009ZX04014-061-03),参与。
教学和指导学生情况:
工作期间负责教授课程有:铸件形成理论、金属学原理、冶金原理、特种铸造、金属腐蚀与防护、材料加工工程数字化、铸造课程设计、铸造方向生产实习及认识实习、电子技术等课程;
目前共计指导硕士研究生15人,博士研究生3人,已毕业6人,毕业生共发表SCI论文13篇,指导研究生2人获得国家奖学金,6人获得校级一等奖学金,1名博士生于2024年4月获得“首届先进合金材料青年论坛—研究生论坛报告”银奖。
代表性论文: (近五年)
[1]. Tiantian Wang, Wentao Jiang, Xiaohong Wang, Bo Jiang, Xin Wang, Ye Wang*, Hongyu Xu, Maoliang Hu, Dongdong Zhu. An investigation on high-temperature properties of a lightweight AlNbTiV2 refractory high-entropy alloy reinforced by Si. Intemetallics, 2025, 180: 108705.
[2]. Wentao Jiang, Tiantian Wang, Xiaohong Wang, Bo Jiang, Xin Wang, Ye Wang*, Hongyu Xu, Maoliang Hu, Dongdong Zhu. Non-coherent nano-precipitation weakens ductile refractory multi-principal element alloys. Materials Science and Engineering A, 2025, 924: 147775.
[3]. Wentao Jiang, Tiantian Wang, Xiaohong Wang, Bo Jiang, Ye Wang*, Xin Wang, Hongyu Xu, Maoliang Hu, Dongdong Zhu**. A novel lightweight refractory high-entropy alloy. Journal of Materials Research and Technology, 2024, 33: 9062-9066.
[4]. Tiantian Wang, Wentao Jiang, Xiaohong Wang, Bo Jiang, Ye Wang*, Xin Wang, Hongyu Xu, Maoliang Hu, Dongdong Zhu. Enhanced mechanical properties of lightweight refractory high-entropy alloys at elevated temperatures via Si addition. Materials Characterization, 2024, 218: 114552.
[5]. Xu Liu, Hang Zheng, Guohuai Liu, Zhao Guo, Ye Wang*, Zhaodong Wang. Investigation and application of inverse determination of interfacial heat transfer coefficient in vacuum investment casting . International Journal of Metalcasting. 2024, 18(4): 3210-3220.
[6]. Xu Liu, Ye Wang, Xiaoliang Zhao, Ye Wang*, Li Zhou, Na Jin, Ying Liu, Ruirun Chen. Numerical and experimental study of directional annealing to prepare columnar grains of TiAl alloy. Materials Today Communications. 2024, 38, 108467.
[7]. Pengshuai Pan, Bo Jiang, Yu Guo, Ye Wang*, Hongyu Xu, Maoliang Hu. Effect of cryorolling on microstructure, conductivities and mechanical properties of a cast near-eutectic Al-Si-Fe-Mg alloy. Journal of Materials Engineering and Performance. 2023. (In press).
[8]. Tiantian Wang, Wentao Jiang, Xiaohong Wang, Bo Jiang, Ye Wang*, Dongdong Zhu, Maoliang Hu. Effect of Ti on microstructure and mechanical properties of Al0.8Nb0.5TixV2Zr0.5 refractory complex concentrated alloys. International Journal of Refractory Metals and Hard Materials. 2023, 117: 106383.
[9]. Ye Wang*, Haosheng Huang, Bo Jianga, Dongdong Zhu, Duo Dong, Maoliang Hu. Effect of high pressure on solidification microstructure evolution of near-eutectic Al-11.5Si-0.5Fe-0.2Mg alloy. Materials Chemistry and Physics, 2023, 303: 127825.
[10].Haosheng Huang, Bo Jiang, Wentao Jiang, Ye Wang*, Dongdong Zhu, Maoliang Hu. Effect of aging treatment on properties of Al-Si alloy solidified at high-pressure. Materials Science and Technology, 2023, 39(15): 1999-2005.
[11].Tiantian Wang, Wentao Jiang, Xiaohong Wang, Bo Jiang, Chuan Rong, Ye Wang*, Jieren Yang, Dongdong Zhu. Microstructure and properties of Al0.5NbTi3VxZr2 refractory high entropy alloys combined with high strength and ductility. Journal of Materials Research and Technology, 2023, 24: 1733-1743.
[12].Jiang Wentao, Wang Ye*, Jiang Bo, Wang Xiaohong, Ma Tengfei, Zhu Dongdong. Microstructure and Mechanical Properties of Al0.5Nb1.5TiV2Zr0.5 Refractory High Entropy Alloy. Rare Metal Materials and Engineering, 2023, 52(3): 846-851. (2022分区—4区)
[13].Wentao Jiang, Ye Wang*, Xiaohong Wang, Bo Jiang, Tengfei Ma, Huijun Kang, Dongdong Zhu. Effect of Al on microstructure and mechanical properties of lightweight AlxNb0.5TiV2Zr0.5 refractory high entropy alloys. Materials Science and EngineeringA, 2023, 865: 144628.
[14].Haosheng Huang, Ye Wang*, Jiang Bo, Xiaohong Wang, Tengfei Ma, Dongdong Zhu. Microstructure, Mechanical Property and Thermal Conductivity of Al-Si-Fe-Mg Alloy Solidified Under High Pressures. International Journal of Metalcasting, 2022, 2023, 17: 2103-2108.
[15].Wentao Jiang, Xiaohong Wang, Siying Li, Tengfei Ma, Ye Wang*, Dongdong Zhu*. A lightweight Al0.8Nb0.5Ti2V2Zr0.5 refractory high entropy alloy with high specific yield strength. Materials Letters. 2022, 328: 133144.
[16].Wentao Jiang, Xiaohong Wang, Huijun Kang, Bo Jiang, Duo Dong, Ye Wang*, Dongdong Zhu. Microstructure and mechanical properties of AlNbTiVZr system refractory high entropy alloys. Journal of Alloys and Compounds. 2022, 925(5): 166767.
[17].Xin Hao, Guo-huai Liu, Ye Wang*, Shi-ping Wu, Zhao-dong Wang. Optimization of investment casting process for K477 superalloy aero-engine turbine nozzle by simulation and experiment. China Foundry. 2022, 19: 351-358.
[18].Junhua Cao, Meng Gao*, Yuanfei Cai, Jinlong Li, Ye Wang*, Junqiang Wang*, Juntao Huo*. Rapid screening the mechanical properties of ZrNi-based metallic glasses by high-throughput combinatorial approach. Intermetallics. 2022, 148: 107640.
[19].Ye Wang*, Huijun Kang, Yu Guo, Hongtao Chen, Maoliang Hu, Zesheng Ji. Design and preparation of high thermal conductivity aluminum alloy based on CALPHAD and first-principles calculation. China Foundry. 2022,19(03): 225-237.
[20].Yu Guo, Ye Wang*, Bo Jiang, Hongtao Chen, Hongyu Xu, Maoliang Hu and Zesheng Ji. Microstructure evolution, thermal conductivity and mechanical properties of hot-rolling Al-Si-Fe-Mg alloy under different reductions. Modern Physics Letters B. 2022, 36(01): 2150533.
[21].Peng Zhang, Guohuai Liu, Ye Wang*, Shiping Wu, Zhaodong Wang. Optimization of investment casting parameters for reduction of shrinkage porosity in nickel-based superalloy castings by Taguchi method. International Journal of Modern Physics B. 2021, 35(10): 2150136
[22].Xun Zhang, Ye Wang*, Zesheng Ji, Hongyu Xu, Maoliang Hu, and Pengxing Cui. Simulations of Multiple Grains Growth of Mg-Al Alloy Semisolid Structure by Phase-Field-Lattice Boltzmann Simulation. Metallurgical and Materials Transactions B. 2021. 52: 2441-2449.
[23].Ye Wang*,Maoliang Hu,Hongyu Xu,Zesheng Ji,Xiaodong Liu. Effect of isothermal process parameters on semi-solid microstructure of chip-based Al-Cu-Mn-Ti alloy prepared by SIMA method. Modern Physics Letters B. 2020, 34(33): 2050385.
[24].Xun Zhang, Ye Wang∗, Dongrong Liu, Zesheng Ji, Hongyu Xu, Maoliang Hu, Pengxing Cui. Effect of stirring rate on grain morphology of Mg-Al alloy semi-solid structure by phase field lattice Boltzmann simulation. Journal of Crystal Growth. 2020, 543:125704.
[25].Yu Guo, Ye Wang∗, Hongtao Chen, Hongyu Xu, Maoliang Hu, Zesheng Ji. Evaluation of stabilities and thermophysical properties of Si-Sr intermetallics based on first-principles analysis. Results in Physics. 2020,18:103207.
联系方式:
通信地址:哈尔滨市香坊区林园路4号,哈尔滨理工大学南区,6号楼310室
邮编:150040
联系邮箱:wangye1984@hrbust.edu.cn