兰亮,博士,副教授,硕士生导师。主要从事激光/电子束增材制造钛合金与钛铝合金,激光冲击表面改性,疲劳损失机制以及异种材料连接工艺等研究。在Journal of Materials Science & Technology, International Journal of Fatigue, Materials Science and Engineering: A等国内外SCI期刊发表论文20篇;受邀兼任Crystal国际SCI期刊客座编辑,以及International Journal of Fatigue, Journal of Manufacturing Processes, Materials Letters等期刊审稿人,授权国家发明专利3项。主持或参与上海市教委青培计划项目,国家重点实验开放课题,上海市科委重大基础研究“面向复杂精细结构的金属增材制造”,国家工信部“先进涡轮发动机热端部件绿色关键工艺系统集成”等项目。指导本科生获得中国大学生铸造工艺设计大赛全国三等奖;已培养硕士研究生4名,其中考取上海交大博士研究生1名,获得国家奖学金以及校级优秀硕士论文2名。
通讯地址:上海市松江区龙腾路333号实训楼1318
联系电话:021-67796016
电子邮箱:cumtlanliang@163.com
教育经历:
2010.09—2016.10, 上海大学, 工学博士
2006.09—2010.07,中国矿业大学,工学学士
研究方向:
激光/电子束增材制造(3D打印);激光冲击表面改性;疲劳损伤行为;异种材料连接
代表性论文:
[1] Lulu Jiang, Liang Lan*, Haoyu Wang, Xiao Yan, Shuang Gao, Bo He*, Chaoyue Chen, Laser shock peening of laser melting deposited TiAl alloy for enhancing its corrosion resistance,Surface & Coatings Technology, 2024, 483: 130745.
[2] Lulu Jiang, Liang Lan*, Chengyan Bai, Haoyu Wang, Shuang Gao, Bo He*. Research progress on powder bed fusion additive manufacturing of TiAl-based alloy. The International Journal of Advanced Manufacturing Technology. 2024, 133:1045–1061.
[3] Lulu Jiang, Liang Lan*, Chengyan Bai, Ruyi Xin, Shuang Gao, Haoyu Wang, Bo He*. Influence of laser shock peening on the microstructure and high-temperature oxidation resistance of Ti45Al8Nb alloy fabricated via laser melting deposition, Transactions of Nonferrous Metals Society of China 2024, online.
[4] Jun Wang, Bo He*, Caiyan Liu, Liang Lan*, Shuang Gao, Yonghua Rong. Thermal stability of nanocrystals in SLM-printed Ti64 alloy treated by laser shock peening and plasma nitriding, Metals and Materials International, 2024, online.
[5] Junmei Huo, Bo He*, Liang Lan*. Effects of boron on microstructure and mechanical properties of high-Nb TiAl alloy fabricated via laser melting deposition, Journal of Materials Engineering and Performance 2023, 32:10104–10114.
[6] Chengyan Bai, Liang Lan*, Ruyi Xin, Shuang Gao, Bo He*. Microstructure evolution and cyclic deformation behavior of Ti-6Al-4V alloy via electron beam melting during low cycle fatigue, International Journal of Fatigue 2022, 159: 106784.
[7] Ruyi Xin, Liang Lan*, Chengyan Bai, Shuang Gao, Bo He*, Jiang Wang. Fatigue properties of selective laser melted Ti-6Al-4V alloy subjected to laser shock processing. Journal of Materials Science 2022, 57: 9619–9630.
[8] Liang Lan, Ruyi Xin, Xinyuan Jin, Shuang Gao, Bo He*. Influences of multiple laser shock peening impacts on microstructure and mechanical properties of Ti-6Al-4V alloy fabricated by electron beam melting. International Journal of Minerals, Metallurgy and Materials 2022, 29: 1780-1787.
[9] Xinyuan Jin, Liang Lan*, Shuang Gao, Bo He*, Yonghua Rong. Effects of laser shock peening on microstructure and fatigue behavior of Ti-6Al-4V alloy fabricated via electron beam melting. Materials Science and Engineering: A 2020, 780: 139199.
[10] Liang Lan, Xinyuan Jin, Shuang Gao, Bo He*, Yonghua Rong. Microstructural evolution and stress state related to mechanical properties of electron beam melted Ti-6Al-4V alloy modified by laser shock peening. Journal of Materials Science & Technology 2020, 50: 153-161.
授权发明专利:
(1) 兰亮; 何博; 白澄岩; 高双; 一种改善增材制造金属构件疲劳性能的复合装置及方法, 2023-11-10, 中国, ZL202210099202.0.
(2) 兰亮; 何博; 辛如意; 高双; 一种电子束增材制造全等轴晶金属构件的方法, 2022-09-23, 中国, ZL202110919218.7.
(3) 何博; 兰亮; 金鑫源; 高双; 潘宇飞; 一种基于增材制造技术制备梯度结构金属件的方法, 2021-07-20, 中国, ZL201910233988.9.
