l 学术论文 [1] C. Chen, Y. Chen, K.L. Li, S. Wang, Y.F. Zhang, Y.R. Mao, Jan W. Coenen, J. Wang, L.M. Luo, Y.C. Wu, Interfacial microstructure and mechanical property of the discontinuous short tungsten fiber-reinforced tungsten matrix composites, Materials Characterization 215 (2024) 114214 [2] C. Chen, S.Y. Yang, R. Liu, Y. Chen, Y.R. Mao, S. Wang*, Z. Zhang, L.M. Luo, Y.C. Wu, The interfacial microstructure and fracture toughness of W/Ta multilayer composites, Materials Science and Engineering: A 831 (2022) 142272 [3] C. Chen, J. Xu, R. Liu, X. Xia, S. Wang, Z. Zhang, Z.H. Zhong, Y.C. Wu, The effect of sintering temperature on the tensile properties and fracture behaviors of W/Ta multilayer composites. Materials Science & Engineering A. 2019, 768, 138450. [4] Chang Chen, Sanfeng Qian, Shan Wang, Long Niu,Rui Liu, Bin Liao, Zhihong Zhong, Pin Lu, Ping Li, Lingfei Cao, Yucheng Wu, The microstructure and formation mechanism of Face-centered Cubic Ti in Commercial Pure Ti Foils during tensile deformation at room temperature. Materials Characterization. 2018, 136, 257–263. [5] Chang Chen, Sanfeng Qian, Rui Liu, Shan Wang, Bin Liao, Zhihong Zhong, Lingfei Cao, Jan W. Coenen, Yucheng Wu, The microstructure and tensile properties of W/Ti multilayer composites prepared by spark plasma sintering. Journal of Alloys and Compounds. 2019, 780, 116-130. [6] Chang Chen, Sanfeng Qian, Shan Wang, Rui Liu, Bin Liao, Long Niu, Zhihong Zhong, Pin Lu, Ping Li, Lingfei Cao, Jan W. Coenen, Yucheng Wu, The microstructure and property of W/Ti multilayer composites prepared by spark plasma sintering. International Journal of Refractory Metals and Hard Materials. 2019, 79, 138-144. [7] C. Chen, S. Wang, Y.L. Jia, M.P. Wang, Z. Li, Z.H. Zhong, P. Lu, Y.C. Wu, L.F. Cao, The Evolution of Dislocation Microstructure in Electron Beam Melted Ta-2.5W Alloy during Cold Rolling. Int. Journal of Refractory Metals and Hard Materials. 2016, 61, 136-146. [8] C. Chen, Y. Chen, K.L. Li, S.Y. Yang, J. Wang, S. Wang, Y.R. Mao, L.M. Luo, Y.C. Wu, The ductile-brittle transition behaviors of W/Ta multilayer composites, Journal of Alloys and Compounds 946 (2023) 169377. [9] C. Chen⁎, X. Xia, S.Y. Yang, R. Liu, Y.R. Mao, S. Wang, Z. Zhang, Z.H. Zhong, Y.C. Wu, Effect of the thickness of Ti intermediate layer on the microstructure and mechanical properties of the W/Ta multilayer composites, Journal of Alloys and Compounds 867 (2021) 158910. [10] R. Liu, X.S. Hou, S.Y. Yang, C. Chen*, Y.R. Mao, S. Wang*, Z.H. Zhong, Z. Zhang, P. Lu, Y.C. Wu, The effect of bonding temperature on the bending behaviors and toughening mechanism of W/(Ti/Ta/Ti) multilayer composites prepared by field activated sintering technique, Materials Characterization 172 (2021) 110875 l 著作 [1] 汪明朴、陈畅、张真、雷若姗、夏福中、雷前,FCC、BCC和HCP金属材料变形行为及组织结构演变,中南大学出版社 l 授权专利 [1] 陈畅,刘蕊,吕品,钱三峰,王珊,钟志宏,吴玉程. 一种层状增韧钨基复合材料及其制备方法,专利号:ZL 201711416444.3 [2] 陈畅,刘蕊,吕品,王珊,钱三峰,许杰,钟志宏,吴玉程. 一种耐高温的层状增韧钨基复合材料及其制备方法,专利号:ZL 201810771445.8 8. [3] 陈畅,刘蕊, 王珊,许杰,夏雪,吕品,钟志宏,吴玉程. 一种层状梯度结构钨基复合材料及其制备方法,专利号:ZL 201910343038.1 [4] 陈畅,夏雪,杨圣尧,王珊,钟志宏,张真,吴玉程. 一种高硬度脆性材料用拉伸夹具,专利号:ZL 202021646896.8 [5] 陈畅,党萍萍,王珊,黎振成,史智琦,刘邦琪,陆娟,王磊,康梦. 一种提高Ta-2.5W合金硬度的形变热处理方法,专利号:ZL 202210374717.7 [6] 陈畅,陈寅,王珊,罗来马,吴玉程. 一种钨纤维-氧化物粒子协同增韧钨复合材料及其制备方法,专利号:ZL 202210600382.6 [7] 汪明朴,陈畅,王珊,谭望,贾延琳,李周,夏福中,张真. 发明名称:一种超薄Ta-W合金箔材的制备方法,专利号:ZL 201310029982.2 l 教学成果与奖励 [1] 银河集团9873.cσm第二届大学生微结构摄影大赛技术创新组, 一等奖 [2] 银河集团9873.cσm年第五届互联网+大学生创新创业大赛, 创意组银奖 [3] 第八届互联网+大学生创新创业大赛,省级金奖 [4] 第九届互联网+大学生创新创业大赛,省级金奖 [5] 第十七届iCAN大学生创新创业大赛全国总决赛,二等奖 [6] 2022年中国大学生机械工程创新创意大赛-材料热处理创新创业赛,国赛一等奖 l 科研获奖 2016年,13th China-Japan Symposium on Materials for Advanced Energy System and Fission and Fusion Engineering, Outstanding poster award |