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个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:材料科学与工程学院
办公地点:三束新楼 205室
联系方式:座机:0411-84706087 手机:13998682612
电子邮箱:zhanglw@dlut.edu.cn
扫描关注
- [41]Wang, MW, 张立文, Jiang, GD, Zhang, FY, Li, CH, LS, ZL.Numerical simulation of vacuum heat treatment thermal hysteresis time of GH4169 superalloy work...[A],14th Congress of the International-Federation-for-Heat-Treatment-and-Surface-Engineering,2022,772-775
- [42]王明伟, 张立文, Jiang, Guo-Dong, Zhang, Fan-Yun, Li, Chen-Hui, Li-Sheng, Zun-Li.Numerical simulation of vacuum heat treatment thermal hysteresis time of GH4169 superalloy workpi...[J],材料热处理学报,2022,25(5):772-775
- [43]Lu Cheng, 张立文.Numerical simulation on forging process of TC4 alloy mounting parts[J],Transactions of Nonferrous Metals Society of China,2022,16(6):1386-1390
- [44]张立文, Liu, Chengdong, Qi, Shaoan, 于永泗, Zhu, Wenhui, Qu, Shen, Wang, Jinghe.Numerical simulation of inertia friction welding process of GH4169 alloy[A],ICTPMCS: 2nd International Conference on Thermal Process Modelling and Computer Simulation,2022,120:681-687
- [45]张立文, Liu, CD, Qi, SA, 于永泗, Zhu, WH, Shen, Q, Wang, JH.Numerical simulation of inertia friction welding process of GH4169 alloy[J],JOURNAL DE PHYSIQUE IV,2022,120:681-687
- [46]张立文, Li, Fei, 张驰, Mao, Peigang, Chaoqun.Numerical simulation of microstructure evolution during continuous hot rolling process of GCr15 s...[A],2022,1016 MSF:1733-1738
- [47]张立文, 张驰.Numerical Simulation of On-Line Water Cooling Process of Non-Quenched and Tempered Large-sized St...[A],The 5th Asian Conference on Heat Treatment and Surface Engineering,2022
- [48]Ma, Zhengkun, 高峰, 张立文, 余广华, 高守义.Optimization method of pulsed plasma carburizing progress[J],Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology,2022,38(5):534-538
- [49]张驰, 张立文.Precision Forming and Assembling Technique of Large Diameter Thin-walled Rotor Can for Reactor Co...[A],Fimpart-2017,2022
- [50]Kan, Y., 刘华, 张淑花, 张立文, Cheng, M., Song, H. W..Probabilistic pore healing model for prediction of relative density in heat treatment[J],MATERIALS RESEARCH INNOVATIONS,2022,18:1026-1030
- [51]Wang, YT, 张立文, 裴继斌, 王富岗, Yu, CX.Quenchant characterization system based on application of thermal probes of typical steels[A],14th Congress of the International-Federation-for-Heat-Treatment-and-Surface-Engineering,2022,536-539
- [52]Wang, Yu-Ting, 张立文, 裴继斌, 王富岗, Yu, Cheng-Xin.Quenchant characterization system based on application of thermal probes of typical steels[J],材料热处理学报,2022,25(5):536-539
- [53]Ruan, J. H., 张立文, Gu, S. D., He, W. B., Chen, S. H..Regression models for predicting plate plan view pattern during wide and heavy plate rolling[J],IRONMAKING STEELMAKING,2022,41(9):656-664
- [54]张立文, 张驰.Research on austenite grain growth behavior of medium carbon Cr–Ni–Mo alloyed steel during heat...[A],The 5th Asian Conference on Heat Treatment and Surface Engineering,2022
- [55]Yue, C.-X., 张立文, 廖胜利, 裴继斌, Gao, H.-J., Jia, Y.-W., Lian, X.-J..Research on austenite grain growth behavior of GCr15 steel[J],Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment,2022,29(1):94-97
- [56]Yue, Chong-xiang, 张立文, Liao, Shu-lun, Pei, Ji-bin, Gao, Hui-ju, Jia, Yuan-wei, Lian, Xiao-jie.Research on the dynamic recrystallization behavior of GCr15 steel[J],MATERIALS SCIENCE AND ENGINEERING A STRUCTURAL MATERIALS PROPERTIES MICROST,2022,499(1-2):177-181
- [57]cuiyan, 张立文, 张驰, lifei, Shen, Wenfei.Shape-righting capacity analysis of vacuum hot bulge forming process of reactor coolant pump ro...[J],真空,2022,162:128-136
- [58]Zhang, Jianlin, 张立文, Yang, Yang, Zhu, Zhi.Simulation and Optimization of Die Forging Process for High Pressure Valve Bonnet[A],3rd International Conference on Advances in Materials Manufacturing (ICAMMP 2012),2022,652-654:2053-2056
- [59]张立文.Simulation and Optimization of Die Forging Process for High Pressure Valve Bonnet[J],Advanced materials research,2022,652(1):2053-2056
- [60]Yuan, S. Y., 张立文, Liao, S. L., Jiang, G. D., 于永泗, 齐民.Simulation of deformation and temperature in multi-pass continuous rolling by three-dimensional...[J],JOURNAL OF MATERIALS PROCESSING TECHNOLOGY,2022,209(6):2760-2766