一、研项目:近期,限10项 (1)横向(壹碳投资有限公司),商用小型高效固体氧化物燃料系统开发,H20210271,2022年4月至2024年4月,201万,在研,主持 (2)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,已结题,主持 (3)横向(北京科技大学),合金冷摆碾成型加工,2016年至2023年,198万,在研,主持 (4)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,已结题,主持 (5)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, 结题,主持 (6)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,结题,主持 (7)横向(中科院合肥物质研究院),太赫兹激光器开发和稳频控制,2016至2019,37万,结题,主持
二、代表性论著:近期SCI检索代表作 (1)Taotao Ruan,Junjie Shen(通讯),Bo Li,Zhihang Zhao,Dechang Zhang;“High-temperature strengthening mechanism and thermal stability of Laves phase in ferritic matrix”,Materials Science & Engineering A,2022,859(24):144183. (SCI检索) (2)Xiangru Guo,Junjie Shen(通讯);Modelling of the Plastic Behavior of Cu Crystal with Twinning-Induced Softening and Strengthening Effects,ACTA METALLURGICA SINICA,2022,58(3):375-384.(SCI检索) (3)HongguangHan,JunjieShen(通讯),A composite model for residual creep life assessment in T/P92 heat-resistant steel,International Journal of Pressure Vessels and Piping,2021,191,104352(SCI检索) (4)Hui Kang,Junjie Shen(通讯), Hongguang Han, Shanjun Zhang, Fuyong Hua, Biao He, Qingquan Zhao and Gongye Xiao,Influence of long-term thermal aging (>10000h ) on low stress creep deformation of P92 heat-resistant steels ,Materials at High Temperatures,2020, 37(3), 196–206(SCI检索) (5)Shanjun Zhang,Junjie Shen(通讯), Hui Kang and Fuyong Hu,Study on creep behavior and microstructure of a Fe–Cr–Al–Nb–W ferrtic heat-resistant steel based on C, N and Al element control,Materials Research Express, 2020.7(5):056524.(SCI检索) (6)Hui Kang,Junjie Shen(通讯), Shanjun Zhang, Hongguang Han, Fuyong Hu, Biao He, Qingquan Zhao and Gongye Xiao,Influence of thermal ageing on creep rupture mechanism and creep life of P92 ferritic steel,2020,Materials Research Express, 7(8),086517.(SCI检索) (7)Zhang shanjun,Shen junjie(通讯),Effect of Nb and W on Fe2(Nb,W) Laves Phase in Fe-9Cr-6.5Al-Nb-W Alloys,MATERIALS RESEARCH EXPRESS2019.6(11):116504(SCI检索) (8)Hongguang Han,Junjie Shen(通讯),Jiaxing Xie,Effects of precipitates evolution on low stres creep properties in p92 heat-resistant steel,Scientific reports,2018, 8(1): 1-10(SCI检索) (9)Z. Jiang,J. J. Shen(通讯),P.S. Zhao, Short-term creep of p91 heat-resistant steel at low stresses by an instantaneous-stress-change testing,Materials and Technology, 5(2017) 843-847.(SCI检索) (10)J. J. Shen(第一和通讯), K. Ikeda, S. Hata, H. Nakashima,“Primary-transient creep and anelastic backflow ofpure copper deformed at low temperatures and ultra-low strain rates”,TransactionsNonferrous MetalsSocietyofChina,2016,26,1729−1735.(SCI检索) (11)J. J. Shen(第一和通讯), S. Yamasaki, K. Ikeda, S. Hata, H. Nakashima,“Instantaneous Creep in Face-centered Cubic Metals at Ultra- low Strain Rates by a High-resolution Strain Measurement”,Journal of Wuhan University of Technology(Materials Science Edition),2013, vol.28(No.6):1096-1100.(SCI检索) (12)J. J. Shen(第一和通讯), K. Ikeda, S. Hata, H. Nakashima ,“Abnormal transient creep”in a fine-grained Al-5356 alloy observed at low strain rates by a high-resolution strain measurement”, Transactions of Nonferrous Metals Society of China, 2013, vol.23: 1209-1214.(SCI检索)
三、授权专利: (1)李博,申俊杰。“一种基于M-H法的耐热钢蠕变寿命预测方法”,天津理工大学,专利号:CN113252465A (2)魏学朝,张际波,刘海庆,申俊杰;发明专利:HCN激光干涉仪功率的自动控制系统,专利号:2015105283285。 (3)刘海庆;申俊杰;揭银先;李根;魏学朝;发明专利:一种新型双色激光器”,专利号:ZL201620829346.7 (4)申俊杰, 田文怀, 王雷, 杨峰;发明专利:一种在硫酸镍电铸液中控制电铸镍晶粒尺寸的方法”,专利号:CN101165219.
四、近年来荣誉奖励: 天津市优秀工程硕士指导教师(2021);2021年第二届天津市“海河英才”创新创业大赛第二名,2020年中国徐州国际英才创业大赛总决赛三等奖。 |