王玉辉个人信息

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教师姓名: 王玉辉	所在部门: 冶金机械系
性　　别: 男	现有职称: 研究员
出生年月: 1978	导师身份: 博士生导师
民　　族: 汉	学　　位: 博士
政治面貌: 群众	联系电话: 18630397227
学　　历: 研究生	电子信箱: yhwang@ysu.edu.cn
毕业院校: 燕山大学
现任职务:
通讯地址: 国家冷轧板带装备及工艺工程技术研究中心220 066004

基本教学信息
本科教学信息
《带你了解芯片材料制备过程》
教学项目及获奖
1.蛇形同步协同轧制高锰钢板工艺仿真分析，2022金砖大赛之工程仿真创新设计赛项东区预选赛，一等奖，指导教师；
2.高纯铜靶材蛇形轧制，2022金砖大赛之工程仿真创新设计赛项东区预选赛，二等奖，指导教师；
3.DS轧机蛇形轧制高锰钢板工艺及装备研究，第五届全国大学生冶金科技竞赛，二等奖，指导教师；
4.蛇形同步协同轧制高锰钢板工艺仿真分析，2022金砖大赛之工程仿真创新设计赛全国总选赛，一等奖，指导教师；
5.高纯铜靶材蛇形轧制，2022金砖大赛之工程仿真创新设计赛全国总选赛，三等奖，指导教师；
6.大型锻件转运过程温度场、流场研究及温度预测，2023金砖大赛之工程仿真创新设计赛全国总选赛，二等奖，指导教师；
7.2023一带一路暨金砖国家技能发展与技术创新大赛支工程仿真创新设计赛项（研究生组）优秀指导教师。
研究生教学信息
学科及研究方向
1.[硕士]机械设计及理论(080203)，研究方向：先进金属材料绿色智能化生产理论技术
2.[硕士]机械工程(430102)，研究方向：芯片材料制备技术
3.[博士]机械设计及理论(080203)，研究方向：先进金属材料绿色智能化生产理论技术
研究生招生信息
本研究团队经费充足，研究设备高端，与国内外科研团队合作密切。
每年招收1名博士研究生，4-6名硕士研究生。
研究方向为：先进金属材料绿色智能化生产理论技术；芯片材料制备技术；热等静压
硕士教学信息
近三年指导的硕士生，考入上海交通大学、重庆大学和北京科技大学各一名继续攻读博士学位。
目前指导硕士生多名。
曾协助王天生教授指导硕士研究生1名，获学校奖学金2等奖2次，已毕业。
曾协助彭艳教授指导硕士研究生3名，均已毕业，其中1人获国家奖学金2次，1人获学校奖学金2等奖，1人获学校奖学金3等奖。
博士教学信息
目前指导博士后1名。
指导在读博士生5名，其中2020级1人，2022级2人，2023级2人。
曾协助王天生教授指导博士1名，已毕业。
科研信息
在研项目信息
11.2022–10.2025:国家重点研发计划课题(2022YFB3705504).课题负责人
07.2022–05.2025:中央引导地方科技发展资金项目(226Z1003G).主持
10.2021–12.2023:河北省重点研发计划(21310301D).课题负责人
04.2024–12.2024:Provision of Steel Ignot(抗氫脆鋼)(PO.4500021661),HKPC.PI
完成项目信息
01.2021–12.2023:河北省自然科学基金创新研究群体项目(E2021203011).主研
01.2019–12.2022:国家自然科学基金-面上基金项目.(No.51871194).主持
01.2021–12.2022:“HY行动”创新成果转化应用项目，技术顾问
09.2021–01.2022:Four-roll rolling machine mechanism fabrication (PO.4500017374),HKPC.PI
01.2019–12.2019:2019年度河北省重大经济活动知识产权评议试点项目(No.2019-05).主持
01.2018–12.2020:河北省自然科学基金-高端钢铁冶金联合研究基金项目.(No.E2018203312).主持
05.2020–10.2020:Two-roll rolling machine mechanism fabrication (PO.4500015457),HKPC.PI
10.2016–10.2019:燕山大学基础研究专项课题培育课题(No.16LGY005).主持
01.2015–12.2017:河北省协同创新“2011计划”项目(No.JX2014-09).主持
06.2012–16.2015:国家工程中心开放课题(No.ECSR-201207).主持
01.2015–12.2018:国家自然科学基金-面上基金项目(No.51471147).主研
01.2012–12.2014:河北省自然科学基金-高端钢铁冶金联合研究基金项目(No.E2012203137). 主研
01.2011–12.2013:国家自然科学基金-青年基金项目(No.51005198).主研
01.2009–12.2011:国家自然科学基金-青年基金项目(No.50801020).主研
专著、专利信息
申请专利40多项，已授权30项，其中美国专利1项，部分专利如下：
[20]燕山大学，王玉辉，徐明哲，赵金福，陈雨.台车式电阻炉数字孪生系统. 软件著作权2024SR0906770
[19]王玉辉，柳恩泽，熊建超，赵腾祥，杨延皓，张程皓. 板状试样的液氮环境拉伸试验装置. 专利号：ZL202321052119.4
[18]王玉辉，熊建超，黄晓旭，孔玲，彭艳.一种屈服强度大于1000MPa的低成本奥氏体钢及其温轧制备工艺.专利号：ZL202210845612.5
[17]王玉辉，于凯，袁云朋，袁湖川，于卓泽.一种液压升降自平衡智能助老爬楼轮椅. 专利号：ZL202210509293.0
[16]彭艳，徐龙飞，郑亚楠，孔玲，戚向东，王玉辉.一种DS轧机组动态错位变规程在线换辊的工艺方法.专利号：ZL202210487710.6
[15]王玉辉，徐龙飞，郑亚楠，孔玲，戚向东，彭艳.一种DS轧机成套设备及其板形控制的轧制工艺.专利号：ZL202210556901.3
[14]王玉辉，李国阳，孔玲，王存宇，曹文全.一种高强度低密度钢及其制备方法.专利号：ZL202210722319.X
[13]王玉辉，徐龙飞，孔玲，郑亚楠，戚向东，彭艳.一种利用蛇形轧制制备板材的成套设备及其工艺方法.专利号：ZL202111033088.3
[12]王玉辉，黄晓旭，郑亚楠，王天生，刘建华，彭艳，廖波.一种超级韧性钢铁材料及其制造方法.申请号 PCT/CN2020/105116，国际申请日28.07.2020.
[11]缑慧阳，王玉辉，陈真.一种Cr-V-Co-Ni合金及制备方法.专利号:ZL202010408870.8.
[10]Wang Yuhui, Huang Xiaoxu, Zheng Yanan, Wang Tiansheng, Peng Yan, He Yanming, Liao Bo. Low-temperature high-strength-and-ductility high manganese steel, and high manganese steel plate and high manganese steel tube manufacturing process. US 2017/0283896 A1
[09]王玉辉，王天生，黄晓旭，彭艳，贺延明，郑亚楠，付瑞东，廖波.低温塑性的高锰钢板及其加工工艺,专利号:ZL201510178170.3.
[08]王玉辉，黄晓旭，王天生，贺延明，彭艳，廖波.低温塑性的高锰钢管材及其加工工艺，专利号:ZL201410399638.7.
[07]王玉辉，黄晓旭，王天生，彭艳.一种高强度、高塑性的高锰钢材料及其加工方法，专利号:ZL201510492300.0.
[06]王玉辉，黄晓旭，王天生，彭艳，贺延明，郑亚楠，廖波.低温高强塑积高锰钢板及其加工工艺，专利号:ZL 201510177583.X.
[05]王玉辉，刘利刚，孔进丽，王同良，范磊，王青峰.实现热加工模拟与性能测试一体化的试验方法，专利号:ZL201210192246.4.
[04]王玉辉，杨猛，赵晓洁，闫志刚，刘建华.一种球墨铸铁表层石墨球细化的方法，专利号: ZL 201510809911.3.
[03]王玉辉，邢鹏达，曹文全，周学凤，王志蒙，王天生，彭艳.一种差温轧制工艺的热模拟方法，专利号: ZL 201610315595.9.
[02]王玉辉，张洪旺，刘建华.一种提高耐磨高锰钢硬度的方法，专利号：ZL201710010603.3.
[01]曹文全，王玉辉，董瀚，邢鹏达，翁宇庆，彭艳.一种组织与性能均匀化钢材的非均温控轧控冷工艺，专利号:ZL201510682562.3.
学术论文信息
在COMMS. MAT. (Nature 子刊); Scr. Mater; Mater. Res. Lett; Appl. Phys. Lett; Sci. Rep等国内外期刊共发表100多篇, 其中ESI Web of Science热点论文(Hot Paper) 1篇 (前0.1%) ，高被引论文(Highly Cited Paper)2篇(前1%), TOP期刊共计16篇，2015-2019年度热处理学会优秀论文1篇，部分学术论文如下：
[63]Kai Yu, Xin Xue, Longfei Xu, Guipeng Li, Xiaodan Zhang, Yuhui Wang*.Effect of grain size and orientation on magnetron sputtering yield of tantalum.International Journal of Refractory Metals and Hard Materials 126(2025)106948.
[62]赵金福，徐明哲，孔玲，王玉辉.风电塔筒法兰锻件自然对流传热试验与模拟.物理测试, 42(3),2024,1-6.
[61]Mingzhe Xu, Jinfu Zhao, Li Wang, Tengxiang Zhao, Ling Kong, Zhipeng Li,Zhixin Huang, Yuhui Wang*, The improvement and verification of fluid dynamics simulation on temperature uniformity during heat treatment of ring pieces.Heliyon,10,2024,e36099
[60]Jinfu Zhao, Mingzhe Xu, Li Wang, Tengxiang Zhao, Ling kong, Haokun Yang, Zhixin Huang, Yuhui Wang*.The Optimization of Distribution and Fan Parameters in Heat Treatment Furnaces Through the Integration of Numerical Simulation and Machine Learning.Journal of Thermal Science and Engineering Applications.v16,2024,061005
[59]赵金福，徐明哲，孔玲，王军辉，郭华楼，王玉辉*.台车式热处理炉热处理过程模拟与分析. 佳木斯大学学报(自然科学版).v42,2,2024,72-75,105.
[58]Longfei Xu, Kai Yu, Li Wang, Shizhao Quan, Ling Kong, Haokun Yang, Xiaodan Zhang, Yan Peng, Yuhui Wang*. Microstructure and mechanical properties of pure copper plate processed by novel dynamic offsets and shear force adjustment rolling.Journal of Materials Research and Technology 29 (2024) 558-570.
[57]孔玲，王玉辉，张浩坤，彭艳. Fe-Mn-Al-C 系奥氏体基低密度钢使役性能研究进展. 机械工程学报. 60(8),2024,34-47.
[56]Jianchao Xiong, Enze Liu, Ling Kong, Xiangdong Qi, Haokun Yang, Xiaodan Zhang, Yuhui Wang*. Tailoring mechanical properties of Fe-32Mn-0.6C steel via deformation, dyanmic recovery and recrystallization. Journal of Physics: conference Series, 2635(2023),012017.
[55]Jianchao Xiong, Xiaodan Zhang, Yuhui Wang*. Research Progress on Ultra-Low Temperature Steels: A Review on Their Composition, Microstructure, and Mechanical Properties.Metals 2023,13,2007.
[54]Hui Wang, Cunyu Wang, Jianxiong Liang, Andy Godfrey**, Yuhui Wang***, Yuqing Weng, Wenquan Cao*. Effect of alloying content on microstructure and mechanical properties of Fe-Mn-Al-C low-density steels. Materials Science and Engineering A.886.(2023).145675.
[53] Jianchao Xiong, Enze Liu, Chenghao Zhang, Ling Kong, Haokun Yang, Xiaodan Zhang*, Yuhui Wang*. Tuning mechanical behavior and deformation mechanisms in high-manganese steels via carbon content modification. Materials Science and Engineering A 881, (2023),145401.
[52] J C Xiong, E Z Liu, L Kong, X D Qi, H K Yang, X D Zhang, Y H Wang*. Tune mechanical properties of Fe-32Mn-0.6C steel via deformation, dynamic recovery and recrystallization. The 8th international conference on recrystallization and grain growth. 15-19 May, 2023. Chongqing, China and Copenhagen, Denmark.
[51] Jianchao Xiong, Heng Li, Ling Kong, Xiaodan Zhang*, Wenquan Cao, Yuhui Wang*. Dependence of Charpy impact properties of Fe-30Mn-0.05C steel on microstructure. Crystals 2023, 13, 353.
[50] Zhi-bin Zheng, Hao-kun Yang, A.P. Shatrava, Jun Long, Yu-hui Wang, Jia-xin Li, Kai-hong Zheng. Work hardening behavior and fracture mechanisms of Fe-18Mn-1.3C-2Cr low-density steel castings with varying proportions of aluminum alloying. Materials Science and Engineering A 862 (2023) 144467.
[49] Jianchao Xiong, Yuhui Wang*, Yubin Zhang**, Tiansheng Wang, Yan Peng, Andrew Godfrey, Niels Hansen, Xiaoxu Huang. Tailoring the microstructure to enhance the cryogenic mechanical properties of a Fe-34.5Mn-0.04C steel. Materials Science and Engineering A 853 (2022) 143769.
[48] J C Xiong, J F Zhao, L Kong, H K Yang, X D Zhang, Y H Wang*. Heterogeneous lamellar-structured high manganese steel with excellent tensile properties. IOP Conf. Series: Materials Science and Engineering 1249 (2022) 012036
[47]G Y Li, L Kong, E Z Liu, X D Zhang, W Q Cao, Y H Wang*. Effect of Aging Treatment on the Microstructure and Mechanical Properties of Fe-Mn-Al-C Low Density Steel. IOP Conf. Series: Materials Science and Engineering 1249 (2022) 012053
[46]郑志斌，龙骏，王玉辉，杨浩坤.孪生诱发塑性钢力学性能的研究进展. 钢铁研究学报.2022.
[45] Zhen Chen, Hongbo Xie, Haile Yan, Xueyong Pang, Yuhui Wang, Guilin Wu, Lijun Zhang, Hu Tang, Bo Gao, Bo Yang, Yanzhong Tian, Huiyang Gou1, Gaowu Qin. Towards ultrastrong and ductile medium-entropy alloy through dual-phase ultrafine-grained architecture. Journal of Materials Science and Technology 2022,126, 228-236.
[44]Jiaojiao Bai, Haifeng Xu, Yuhui Wang, Xingpin Chen*, Xiaodan Zhang*, Wenquan Cao*, Yang Xu. Microstructures and mechanical properties of ductile cast iron with different crystallizer inner diameters. Crystals 2022, 12, 413
[43]徐龙飞，孔玲，戚向东，王玉辉*，彭艳.基于蛇形轧制与同步轧制协同的高锰钢轧制工艺.塑性工程学报. 2021,28(12):51-62.
[42] Wentao Luo, Pengzhan Cai, Ziyong Hou, Yuhui Wang, Ling Zhang*, Guilin Wu*. Hot deformation behaviour and processing maps of a low carbon Fe-2 wt% Nb steel. Metals. 2021,11,1939.
[41]陈晓满，王玉辉*，王天生. 影响高锰钢力学性能因素的研究综述. 热加工工艺，2022,2,51(4).
[40]Xueliang An, Zhiyue Shi, Haifeng Xu, Cunyu Wang, Yuhui Wang, Wenquan Cao, Jinku Yu. Quantitative Examination of the Inclusion and the Rotated Bending Fatigue Behavior of SAE52100. Metals,2021,11,1502.
[39]Jiaojiao Bai, Wanli Zhang, Yuhui Wang, Xingpin Chen, Wenquan Cao, Yang Xu. On the unique microstructure and properties of the ultrahigh carbon bearing steel alloyed with different aluminum contents. Metals,2021,11,1116.
[38] Wentao Luo, Lingli Wang, Yuhui Wang, Li Meng, Yuan Yuan, Ling Zhang*, Guilin Wu*. Microstructure and mechanical properties of a 2wt%Nb bearing low carbon steel. Materials Science and Engineering A. 2021. 826, 141957
[37] Yuhui Wang, Yubin Zhang, Andrew Godfrey*, Jianmei Kang, Yan Peng, Tiansheng Wang, Niels Hansen, Xiaoxu Huang*. Cryogenic toughness in a low-cost austenitic steel. Communication materials. 2:44, 2021.1-10.
[36]Xiaoman Chen, Jiaxin Zhang*, Yuhui Wang*, Yubin zhang, Yan Peng, Tiansheng Wang. Microstructure evolution and tensile properties of cold rolled and annealed Fe-30Mn-0.14C-7Cr-0.26Ni steel. Metall Mater Trans A. 2021,52A，3839-3845.
[35]孙荣民，李国阳，王辉，王存宇，王玉辉*，曹文全. 逆相变退火处理Fe-5Mn-0.2C中锰钢的组织与性能研究. 钢铁. 2021, 56(06):82-88.
[34]Fuen Zhang, Baifeng Luan*, Linhua Chu*, Shuwen Wen*, Shuyan Zhang, Yuhui Wang, Lailei Wu, Korukonda L. Murty. Effects of composition on phase stabilities and elastic properties in TiZrAlV alloys： Experiments and first-principles calculations. Journal of Alloys and Compounds.2021,863,158054: 1-10
[33] J.W. Lv, F.L. Wang, S. Zhang, M.Z. Ma*, Y.H. Wang, X.Y. Zhang, R.P. Liu. Deformation behaviours of TiZrCuNiBe bulk metallic glass in supercooled liquid region. Journal of alloys and compounds. 2020. 844. 156101
[32]Guoyang Li, Yuhui Wang*, Xiaoman Chen, Jianchao Xiong, Yanzhong Tian, Wenquan Cao, Tiansheng Wang. Effect of grain sizes and temperature on mechanical properties of Fe-20Mn-0.7C TWIP steel. International Heat Treatment and Surface Engineering. 2020. https://doi.org/10.1080/25787616.2020.1822641:16-21.
[31]Xiaoman Chen, Yuhui Wang*, Jianchao Xiong, Guoyang Li, Yanzhong Tian, Wenquan Cao, Tiansheng Wang*. Effect of Temperature on the Mechanical Properties and Deformation Mechanism of a High Mn Steel with Composite Structure. Frontiers in Materials. 2020. 7. 70:1-9
[30] Sun S J, Tian Y Z*, Lin H R, H J Yang, Dong X G, Wang Y H, Zhang Z F*. Achieving high ductility in the 1.7 GPa grade CoCrFeMnNi high-entropy alloy at 77 K. Materials Science and Engineering A. 2019 740-741:336-341.
[29]Chong Peng, Xiang Gao, Mingzhi Wang,* Lailei Wu, Hu Tang, Xiaoming Li, Qian Zhang, Yang Ren, Fuxiang Zhang, Yuhui Wang, Bing Zhang, Bo Gao, Qin Zou, Yucheng Zhao, Qian Yang, Dongxia Tian, Hong Xiao, Huiyang Gou,* Wenge Yang, Xuedong Bai, Wendy L. Mao, Ho-kwang Mao. Diffusion-controlled Alloying of Single-phase Multi-principal Covalent Transition Metal Carbides with Enhanced Damage tolerance and Exceptional Thermal Properties. Appl. Phys. Lett. 2019 114, 011905
[28]Yanming He, Jiaxin Zhang, Yuhui Wang, Yufeng Wang, Tiansheng Wang*. Anomalous dilatometric behavior induced by martensite-to-austenite transformation in heavily cold-rolled metastable austenitic stainless steel. Submitted to Materials Science and Engineering A. 2019. 739: 343-347.
[27]Zeng Qinghui, Luan Baifeng, Wang Yuhui, Zhang Xinyu, Liu Riping, Murty Korukonda Linga, Liu Qing. Effect of initial orientation on dynamic recrystallization of a zirconium alloy during hot deformation. Materials Characterization. 2018. 145: 444-453.
[26]Kang J M, Wang Y H*, Wang Z M, Zhao Y M, Peng Y, Wang T S. Hot deformation behavior and processing maps of Fe-30Mn-0.11C steel. Materials. 2018. 11(10): 1-12.
[25]Kang J M, Wang Y H*, Zhang C L, Wang T S. Grain refinement and mechanical properties of a Fe-30Mn-0.11C steel. 25th Congress of International Federation for Heat Treatment and Surface Engineering. XiAn, China. 2018.
[24]Wang Y H, Kang J M, Peng Y, Wang T S*, Hansen N, Huang X X*. Hall-Petch Strengthening in Fe-34.5Mn-0.04C steel cold-rolled, partially recrystallized and fully recrystallized. Scripta Materialia. 2018. 155, 41-45.
[23]Wang Y H, Kang J M, Peng Y, Wang T S*, Hansen N, Huang X X*. Laminated Fe-34.5Mn-0.04C composite with high strength and ductility. Journal of Materials Science and Technology. 2018. 34, 1939-1943.
[22]Wang Y H, Shi B D, He Y M, Zhang H W, Peng Y, Wang T S*. A fine grain, high Mn steel with excellent cryogenic temperature properties and corresponding constitutive behaviour. Materials. 2018.11(2).235: 1-9.
[21]Wang Y H*, Kang J M, Peng Y, Zhang H W, Wang T S, Huang X. Observation of simultaneous increase in strength and ductility by grain refinement in Fe-34.5Mn-0.04C steel. IOP Conf. Series: Materials Science and Engineering. 219 2017: 012043.
[20]Wang Y H, Peng Y, He Y M, Wang T S, Huang X*. Effect of temperature on the tensile behavior of a fine-grained high-manganese austenitic steel. Proceedings of the 35th Risoe; Internaional Symposium on Materials Science. Department of Wind Energy Technical University of Denmark Roskilde, Denmark. 2014: 471-474.
[19]Wang Y H*, Xing P D, Wang P, Liu J H. A novel method to improve the hardness and electrical conductivity of Cu-Cr-Al alloy. Journal of Alloys and Compound. 2016, 656: 581-584.
[18]Wang Y H, Wang Q F*, Liu L G, Xu W W. Fracture mode of martensite-austenite constituents containing multiphase steel controlled by microstructural and micromechanical aspects. Mechanics of Advanced Materials and Structures. 2015, 22: 591-596.
[17]Wang Y H, Zhao J, Liu J H, Zhang R J*. Effect of high Pressure heat treatment on microstructures and micro-mechanical properties of CuZn alloy. High Temp. Mater. Proc. 2014, 33(4): 339-344
[16]Wang Y H, Liao B, Liu J H, Chen S Q, Feng Y, Zhang Y Y, Zhang R J*. Effects of deep cryogenic treatment on the solid-state phase transformation of Cu-Al alloy in cooling process. Phase Transitions. 2012, V85(7): 650-657.
[15]Wang Y H, Liao B, Liu L G, Li X F, Su H, Yang C F, Wang Q F*. Effects of N and B on continuous cooling transformation diagrams of Mo-V-Ti micro-alloyed steels. Phase Transitions. 2012, V85(5): 419-426.
[14]Zhang H W*, Zhao Y M, Wang Y H, Yu H X, Zhang C L. Fabrication of nanostructure in inner-surface of AISI 304 stainless steel pipe with surface plastic deformation. Journal of Materials Science and Technology. 2018. 34, 2125-2130.
[13]Sun S J, Tian Y Z*, Lin H R, Dong X G, Wang Y H, Zhang Z J, Zhang Z F*. Enhanced strength and ductility of bulk CoCrFeMnNi high entropy alloy having fully recrystallized ultrafine-grained structure. Materials and Design, 2017, 133: 122-127. (ESI Hot papers)
[12]Sun S J, Tian Y Z*, Lin H R, Dong X G, Wang Y H, Zhang Z J, Zhang Z F*. Transition of twinning behavior in CoCrFeMnNi high entropy alloy with grain refinement. Materials Science and Engineering A. 2017, 712: 603-607.
[11]Zhang L*, Chen Z, Wang Y H, Ma G Q, Huang T L, Wu G L*, Jensen D J. Fabricating interstitial-free steel with simultaneous high strength and good ductility with homogeneous layer and lamella structure. Scripta Materialia, 2017, 141: 111-114.
[10]He Y M, Wang Y H, Guo K, Wang T S*. Effect of carbide precipitation on strain-hardening behavior and deformation mechanism of metastable austenitic stainless steel after repetitive cold rolling and reversion annealing. Materials Science and Engineering A. 2017, 708: 248-253.
[09]Jia N N, Guo K, He Y M, Wang Y H, Peng J G, Wang T S*. A thermomechanical process to achieve mechanical properties comparable to those of quenched-tempered medium-C steel. Materials Science and Engineering A. 2017, 700: 175-182.
[08]Zhao J, Jia X, Guo K, Jia N N, Wang Y F, Wang Y H, Wang T S*. Transformation behavior and microstructure feature of large strain ausformed low-temperature bainite in a medium C-Si rich alloy steel. Materials Science and Engineering A. 2017, 682: 527-534.
[07]Xie L, Huang T L, Wang Y H, Wu G L*, Tsuji N, Huang X X*. Deformation induced martensitic transformation and its initial microstructure dependence in a high alloyed duplex stainless steel. Steel Research Int. 2017, 87: 1-9.
[06]Chen B, Wang Y H, Xiao C Y, Zhang M M, Ni G L, Li D*. The formation mechanism of intermetallic compounds in Al/Mg friction-stir weld joint. Materials Science and Technology. 2017: 1-9.
[05]Zhang L*, Jiang X J, Wang Y H, Chen Q, Chen Z, Zhang Y H, Huang T L, Wu G L. Heterogeneous multi-layered IF steel with simultaneous high strength and good ductility. IOP Conf. Series: Materials Science.
[04]Wang Z M，Wang Y H*，Cao W Q， Zhao Z Z， Wang T S，Peng Y. Hot deformation behavior and processing maps of GCr15 bearing steel. Transcations of matreials and heat treatment. 2017, 38: 191-197. (Chinese).
[03]Liu Z L,Wang Z M, Xing P D, Cao W Q, Peng Y, Wang Y H*. Static recrystallization behavior of GCr15 bearing steel. Journal of Iron and Steel Research. 2017, V29(8):671-677. (Chinese).
[02]Xing P D， Wang Y H*， Wang Z M， Cao W Q，Wang T S， Peng Y. Homogenizing rolling technology of GCr15 bearing steel based on non-uniform temperature field. Iron and Steel. 2017, 52: 59-64. (Chinese).
[01]Kang J M, Wang Y H*, Zhao Y M, Zhang C L, Zhang H W, Wang T S. A cold rolling and annealing process to obtain fine-grain Fe-30Mn-0.11C steel. 4th International Symposium on Advanced Rolling Equipment.
科研获奖信息
[01]河北省科技进步奖，2020，一等奖，排名5.(证书编号2020JB1014-R5)
[02]河北冶金青年科技奖，2014，排名1/1.
[03]唐山市科技进步奖，2013，三等奖，排名5 (证书编号2013JB3007-5).
[04]河北省技术发明奖，2013，三等奖，排名3 (证书编号2013FM3005-3).
[05]河北省科技进步奖，2012，三等奖，排名5 (证书编号2012JB3119-5).
[06]秦皇岛市科技进步奖，2010，一等奖，排名7.
社会信息
社会兼职信息
中国热处理学会第九届青年工作委员会，副主任委员
《中国冶金》首届青年编委会，委员
稀有金属材料与工程；Rare Metal Materials and Engineering；Intermetallics；International Journal of Minerals, Metallurgy and Materials;Materials Science &amp;amp;amp;amp; Engineering A；Matrieals Chemistry and Physics；Joural of Iron and Steel Research International；Materials Today Communications等期刊审稿人
中国热处理学会第八届青年工作委员会，委员
中国生物医学工程学会康复工程分会，青年委员
中国康复辅助器具协会康复工程专业委员会，青年委员
秦皇岛市知识产权专家
2023一带一路暨金砖国家技能发展与技术创新大赛之工程仿真创新设计赛项专家
佳木斯大学学报(自然科学版)专家委员会委员
荣誉称号
[01]河北省金属学会优秀学会工作者，2017，排名1/1.
[02]河北省冶金学会优秀学会工作者，2015，排名1/1.
[03]河北省冶金学会优秀学会工作者，2014，排名1/1.
[04]一带一路暨金砖国家技能发展与技术创新大赛之第二届工程仿真创新设计赛项，优秀指导教师，2022
[05]一带一路暨金砖国家技能发展与技术创新大赛之第三届工程仿真创新设计赛项，优秀指导教师，2023
学习工作简历
Guest Researcher(2019) DTU Mechanical Engineering, Technical University of Denmark
博士(2018) 燕山大学
硕士(2006) 燕山大学
学士(2003) 燕山大学
01.2022-今：研究员/博士生导师，机械工程学院
12.2020–12.2021：研究员/博士生导师，国家冷轧板带装备及工艺工程技术研究中心
12.2016–12.2020：副研究员/博士生导师，国家冷轧板带装备及工艺工程技术研究中心，燕山大学，中试部/平台建设部主任