Email: tiwenlu@ecust.edu.cn
地址:上海市梅陇路130号8040威尼斯17楼
格言:不积跬步无以至千里,不积小流无以成江河
个人简历
陆体文,籍贯江苏盐城,主要致力于面向低温服役环境的高性能制造研究,力图构建材料设计—制造方法—性能评价技术体系,助力我国重大低温工程的实施。近年来承担国家自然科学基金、浦江人才计划、中船重工外协课题等8项课题,以第一/通讯作者在Acta/Scripta Materialia、International Journal of Plasticity等金属材料或固体力学期刊发表SCI论文19篇,授权发明专利7件,入选浦江人才计划、上海市“超级博士后”激励计划。
教育经历
2011.09-2015.06 武汉理工大学 机械设计制造及自动化 本科 导师:陈定方 教授
2015.09-2021.04 华南理工大学 材料加工工程 直博 导师:陈维平 教授
2018.10-2020.11 莱布尼兹固态与材料研究所 联合培养博士生 导师:Dr. Sergio Scudino
工作经历
2021.6—2024.2 8040威尼斯机械与动力工程学院 博士后 合作导师:张显程 教授
2024.2—至今 8040威尼斯机械与动力工程学院 讲师
研究方向
面向低温服役的材料设计;
金属增材制造技术(粉末床、能量沉积、复合制造、后处理技术);
从材料到构件的寿命预测方法;
代表性著作
1. Yufei Chen, Tiwen Lu*, Xiyu Chen, Binhan Sun, Ning Yao, Kaishang Li, Jihang Qiu, Xiaoqi Hu, Xian-Cheng Zhang*, Shan-Tung Tu. “Optimized bilateral ultrasonic surface rolling process assisting directed energy deposition of thin-walled medium-entropy alloy with high mechanical performance.” Addit. Manuf. 2023, 78, 103887.
2. Ning Yao,Tiwen Lu*, Binhan Sun, Xiyu Chen, Weihong Cheng, Chao Yang, Yu Xie, Xian-Cheng Zhang*, Shan-Tung Tu. “Gradient nanostructure-indued exceptional cryogenic mechanical properties in an additively manufactured medium entropy alloy.”Scripta Mater. 2024: 241, 115885.
3. XiYu Chen, Tiwen Lu*, Ning Yao, Hongyu Chen, Binhan Sun, Yu Xie, Yufei Chen, Bingbing Wan, Xian-Cheng Zhang*, Shan-Tung Tu. “Enhanced fatigue resistance and fatigue-induced substructures in an additively manufactured CoCrNi medium-entropy alloy treated by ultrasonic surface rolling process.”Int. J. Plasticity 2023: 169, 103721.
4. Tiwen Lu, Ning Yao, Hongyu Chen*, Binhan Sun, XiYu Chen, Sergio Scudino, Konrad Kosiba, Xiancheng Zhang*. “Exceptional strength-ductility combination of additively manufactured high-entropy alloy matrix composites reinforced with TiC nanoparticles at room and cryogenic temperatures.”Addit. Manuf. 2022, 56,102918.
5. Ning Yao, Tiwen Lu*, Kai Feng, Binhan Sun*, Run-Zi Wang, Ji Wang, Yu Xie, Pengcheng Zhao, Bolun Han, Xian-Cheng Zhang*, Shan-Tung Tu. “Ultrastrong and ductile additively manufactured precipitation-hardening medium-entropy alloy at ambient and cryogenic temperatures.”Acta Mater. 2022, 118142.