一、科研项目:近期,限10项 (1)企业委托项目:荧光粉ZnS材料原位观察,2025年7月至12月,38万,负责人,结题 (2)企业委托项目:商用小型高效固体氧化物燃料系统开发,2022年4月至2024年4月,201万,负责人,结题 (3)国家自然科学基金委,青年项目,51605330,高铬耐热钢在高温低应力下的蠕变性能研究, 2017-01至2019-12、20万,负责人,结题 (4)企业委托项目,合金冷摆碾成型加工,2016年至2023年,213万,负责人,结题 (5)天津市科委,面上项目,18JCYBJC88700, 基于“组织退化因子”的高铬耐热钢高温蠕变极限预测法,2018-10至2021-12月,10万,负责人,结题 (6)天津市科委,面上项目,12JCYBJC32100,极低应变速率下金属材料蠕变行为及机制研究,2012-10至2015-10,10万, 负责人,结题 (7)教育部,留学归国人员科研启动基金,[2013]693号,实用耐高温金属材料在极低应变速率下的蠕变行为、机制研究,2013-04至2015-03,3万,负责人,结题 (8)企业委托项目:太赫兹激光器开发和稳频控制,2016至2019,37万,负责人,结题 二、代表性论著:近期代表作,限10篇(部) (1)He Ren,Junjie Shen(通讯),Xiangru Guo, Qingjian Liu, Ziyu Xue, Rongxiao Chu,Influence of hydrogen on the evolution of recrystallization textures in pure iron,Materials Science & Engineering A,2025, 947,149191,DOI10.1016/j.msea. (2)LiweiZhao,Junjie Shen(通讯),BoLi,, ZiyuXue,YuqingShao,He Ren. Creep Fracture Life Prediction of 9% Cr Heat-Resistant Steel Based on the Back-Propagation Artificial Neural Network Considering Microstructure Characteristics[J],Steel Research International .2025, 96(7),DOI10.1002/srin.202400275. (3)Dechang Zhang, Junjie Shen(通讯), Xiangru Guo, Qingjian Liu,“Effect of hydrogen on the microstructural evolution and local mechanical properties of 430 ferritic stainless steel at high-temperature conditions”,Materials Science & Engineering A,2024, 913,147031 (4)He Ren, Junjie Shen(通讯), Xiangru Guo, Yuqing Shao, Liwei Zhao,“The influence of hydrogen on the recrystallization texture of a face centered cubic metal”,Materials Characterization,2024,215,114226 (5)Yu Xu, Junjie Shen(通讯), Dechang Zhang, Tiejian Jin, Xiangru Guo, Jianguang Li, Yichuan He. Multi-physics field modeling and electrochemical performance analysis of medium-temperature methanol-fueled proton-conducting solid oxide fuel cell [J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects,2024,46(1):3403–3415 .https://doi.org/10.1080/15567036.2024.2320751( (6)Dechang Zhang, Junjie Shen(通讯), Yu Xu , Tiejian Jin , Xiangru Guo;Influence of hydrogen on Kurdjumov-Sachs interfacial structure of M23C6/ferritic matrix at high temperatures,International Journal of Hydrogen Energy,2024, 50(2):1147-1154 |