学习工作经历
(1) 1986.9–1990.7, 上海交通大学, 锻压工艺与设备,学士
(2) 1990.7-1993.6, 重庆望江机械制造厂, 冶金处, 高级工程师
(3) 1993.9–1996.7, 重庆大学, 塑性成形工艺与设备, 硕士
(4) 1996.9–1999.12, 重庆大学, 固体力学, 博士
(5) 1996.7-2008.8, 重庆大学, 机械工程二系, 讲师, 副教授
(6) 2001.4-2004.9, 中国嘉陵工业股份有限公司, 技术中心, 企业博士后
(7) 2005.1-2006.1, Leicester University, Engineering Department, 访问学者
(8) 2016.9-至今, 重庆大学, 伟德体育, 教授
社会兼职
主讲课程
《材料成型原理》(本科)
《金属塑性加工(成形)理论》(研究生)
主要研究方向
金属塑性成形理论、工艺与装备;先进材料成型技术
科研项目
论文及专著
代表性论文、论著:
(1) Z H Deng, T Wen, J H You, K K Du, L Sun. Manufacturing of ultra-large plate forgings by unfolding and flattening of thick cylinders. J. Cent. South Univ., 2020, 27: 2227−2238
(2) X Chen, T Wen, J Qin, J Hu, M Zhang, Z S Zhang. Deformation Feature of Sheet Metals During Inclined Hole‑Flanging by Two‑Point Incremental Forming. International Journal of Precision Engineering and Manufacturing, 2020, 21: 169–176
(3) X Chen, T Wen, K F Liu, Y F Hong. Test of friction parameters in bulk metal forming based on forward extrusion processes. J. Shanghai Jiao Tong Univ. (Sci.), 2020, 25(3): 333-339
(4) X Chen, T Wen, H X Tang. Influence of ultrasonic vibration on discrete media filled tubes during forward extrusion. J. Vibroengineering. 2019, 21(8): 2039–2049
(5) X Chen, T Wen, J Hu, M Zhang, J Z Fang. Investigation of factors affecting the formability of metallic sheets in dieless incremental hole-flanging. The International Journal of Advanced Manufacturing Technology. 2019, 103: 2609–2620
(6) T Wen, L T Liu, Q Huang, X Chen, J Z Fang. Evaluation on prediction abilities of constitutive models considering FEA application. J. Cent. South Univ. 2018, 25: 1251−1262
(7) T Wen, J Zheng, J Qing, J Z Fang. Outwards and inwards crimping of tube ends by single-point incremental forming. Procedia Engineering. 2017, 207: 854–859
(8) T Wen, X Chen, J Zheng, J Qing, Z X Tang. Multi-directional incremental sheet forming—a novel methodology for flexibly producing thin-walled parts. Int J Adv Manuf Technol. 2017, 91: 1909–1919
(9) T Wen, S Zhang, J Zheng, Q Huang, Q Liu. Bi-directional dieless incremental flanging of sheet metals using a bar tool with tapered shoulders. Journal of Materials Processing Technology. 2016, 229(3): 795–803
(10) T Wen, Q Huang, Q Liu, W X Ou, S Zhang. Joining different metallic sheets without protrusion by flat hole clinching process. International Journal of Advanced Manufacturing Technology. 2016, 85(1-4): 217–225
(11) T Wen, Q Liu, Q Huang, W X Ou, J Q Feng. Deformation and densification behavior of discrete media filled thin-walled tubes during forward extrusion. Transactions of Nonferrous Metals Society of China. 2016, 26(8): 2162–2169
(12) T Wen, C Yang, S Zhang, L T Liu. Characterization of deformation behavior of thin-walled tubes during incremental forming: a study with selected examples. International Journal of Advanced Manufacturing Technology. 2015, 78(1): 1769–1780
(13) T Wen, W X Ou, Q Liu, P Zhang, C Yang, Predication and analysis of positioning status of large-scale billets on forging dies using multi-body dynamics simulation. International Journal of Advanced Manufacturing Technology. 2015, 80(1-4): 447–453
(14) Tong WEN, Shi-yao LIU, Shi CHEN, Lan-tao LIU, Chen YANG. Influence of high frequency vibration on microstructure and mechanical properties of TIG welding joints of AZ31 magnesium alloy. Trans. Nonferrous Met. Soc. China. 2015, 25: 397−404
(15) C Yang, T Wen, L T Liu, S Zhang, H Wang. Dieless incremental hole-flanging of thin-walled tube for producing branched tubing. Journal of Materials Processing Technology. 2014, 214(11): 2461–2467
(16) T Wen. On a new concept of rotary draw bend-die adaptable for bending tubes with multiple outer diameters under non-mandrel condition. Journal of Materials Processing Technology. 2014, 214(2): 311–317
(17) T Wen, Xia Chen, Chen Yang, Lantao Liu, Liang Hao. Optimization of processing parameters for minimizing warpage of large thin-walled parts in whole stages of injection molding. Chinese Journal of Polymer Science. 2014, 32(11): 1535–1543
(18) T Wen, H Wang, C Yang, L T Liu. On a reshaping method of clinched joints to reduce the protrusion height. International Journal of Advanced Manufacturing Technology. 2014, 71(9-12): 1709–1715
(19) T Wen, Y W Yue, L T Liu, J M Yu. Evaluation and prediction of hot rheological properties of Ti-6Al-4V in dual-phase region using processing map and artificial neural network. Indian Journal of Engineering & Materials Sciences. 2014, 21: 647-656
(20) T Wen, X Chen. Press cutting of thin-walled round pipe for producing curvilinear end. J. Cent. South Univ. 2012, 19: 304−311
(21) T Wen, X Chen. Investigation of the guided external inversion of thin-walled round tube. Journal of Harbin Institute of Technology(New Series). 2012, 19(3): 38-42
(22) T Wen, R Gao, X Chen. Influence of high frequency vibration on deep drawing process of AZ31 sheet at room temperature. J. Shanghai Jiaotong Univ. (Sci.), 2012, 17(4): 456-460
(23) T Wen, L Wei, X Chen, C L Pei. Effects of ultrasonic vibration on plastic deformation of AZ31 during the tensile process. International Journal of Minerals, Metallurgy and Materials. 2011, 18(1): 70-76
(24) T Wen, X Chen. Deformation of seat support during free-cooling after ejection. Adv. Mater. Res. 2010, 97-101: 3290-3293
(25) 温彤, 陈霞, 刘承科等, 它们是如何工作的—身边科技原理大揭秘 (2014年重庆市优秀科普图书), 机械工业出版社, 2013
(26) 赵建华, 叶升平, 温彤等, 材料科学与人类文明, 华中科技大学出版社, 2011
(27) 王孝培, 储家佑, 何大均, 温彤等, 冲压手册, 机械工业出版社, 2011
(28) 邓明,温彤等,冲压工艺及模具设计, 化学工业出版社, 2009
(29) 王孝培, 储家佑, 何大均, 温彤等, 模具工程大典, 电子工业出版社, 2007
(30) 王孝培, 温彤等, 中国模具设计大典, 江西科学技术出版社, 2003
专利
(1) 陈霞,唐浩兴,周银,潘有成,游建豪,温彤,增材制造模具随型冷却水道的结构功能一体化设计方法,201910373956.9
(2) 温彤,洪意飞,周银,火小畅,杜康康,一种基于粉体套管行星旋轧的超导线材制备方法,201811182219.2
(3) 温彤, 潘有成, 游建豪, 周银,唐浩兴, 一种筋肋板的辊辗成形方法, 201910653074.8
(4) 温彤,周银,陈霞,张梦,胡金,张智顺,一种结合钻孔与塑性变形的弯曲孔加工方法, ZL201810382686.3
(5) 温彤,张梦,胡金,张智顺,陈霞,基于辊压的整体壁板筋肋压型与弯曲一体化成形方法, ZL201710471140.0
(6) 温彤,秦剑,朱滕薛,郑杰,基于数值模拟的金属塑性成形过程能耗分析方法, 201610613885.1
(7) 温彤, 张智顺, 张梦, 利用磁流变填充材料减小弯管截面畸变的方法, 201611206101.X
(8) 温彤, 黄倩, 刘清, 欧文学, 异质和大厚度差板料间的无凸点带孔冲压连接方法, 201510011306.1
(9) 温彤, 杨臣, 张硕, 陈霞, 一种管端无模数控渐进翻卷成形的工具头与方法, 201410494026.6
(10) 温彤, 欧文学, 饶振华, 黄倩, 刘清, 张硕, 一种大型锻件塑性成形坯料在锻模上定位状态的分析方法, 201410122852.8
(11) 温彤, 张硕, 刘清, 郑杰, 杨臣, 一种控制薄板无模渐进翻边过程翘曲变形的工具头与方法, 201410655065.X
(12) 温彤, 杨臣, 陈霞, 刘澜涛, 一种管壁数控渐进翻孔成形的工具头与方法, 201310480432.2
(13) 温彤, 杨臣, 陈霞, 一种基于数控渐进成形的异形管件无模成形方法, 201310005922.7
(14) 温彤, 周杰, 张硕, 黄倩, 岳远旺, 一种热塑性成形摩擦特性参数的测试装置与测试方法, 201310631555.1
(15) 温彤, 肖冰娥, 陈杰, 塑性成形摩擦系数与摩擦因子的正挤压测试方法, 201310136876.4
(16) 温彤, 王辉, 一种降低冲压变形连接点高度的方法,201210397386.5
(17) 温彤, 陈霞, 吴诗仁, 一种微细塑料制件的超声振动成型装置, 201110322607.8
(18) 温彤, 季筱玮, 方刚, 类U形截面冲压件的斜楔弯曲整形复合模, 201110190087.x
(19) 陈霞, 温彤, 360度可调水平转角的落地扇支架, 201010510742.0
(20) 温彤, 刘攀, 陈霞, 一种大型纵向变截面钢板的生产方法, 201010042050.8
(21) 温彤, 陈霞, 裴春雷, 吴维, 一种可以弯制不同外径管材的绕弯模具, 2007100930180
(22) 温彤, 宋克飞, 陈霞, 约束助推式内翻管模具,200710092473.9
表彰及奖励
(1) 中空型材塑性成形关键技术的开发及其产业化 重庆市政府科技进步奖, 2010
(2) 材控专业课程设计教学改革的探索与实践, 重庆大学教学成果奖, 2008
(3) 重庆市优秀青年教师,2003
(4) 管材剖切技术的研究及其模具CAD系统, 重庆市科技进步奖, 2000
(5) 秦山600MW核电稳压器封头锻件成形, 四川省科技进步奖, 1999
科研团队