个人简介
教育背景
2017.03-2017.04,德国,克拉斯塔尔工业大学,访问学者
2016.09-2016.11,德国,克拉斯塔尔工业大学,访问学者
2011.09-2015.11,瑞典隆德大学工学院,机械工程系,博士
2008.09-2011.06,四川大学,制造科学与工程学院,机械制造及自动化系,硕士
2004.09-2008.06,四川大学,制造科学与工程学院,机械设计制造及其自动化专业,学士
工作经历
2016.03-2019.09,四川大学机械工程学院 特聘副研究员
2019.09-至 今,四川大学机械工程学院 副教授
面向国家重大需求的高端装备设计及制造技术,主要从事创新设计与智能制造方面的研究。作为负责人主持课题6项,其中作为总项目骨干成员,子课题承担自然科学基金委重大科研仪器专项1项,个人负责科研经费1100万元(项目总经费6820万),主持或子课题主持自然科学基金青年基金1项,四川省重点研发项目4项,项目经费总金额1264万元。研究成果获得教育部技术发明一等奖,发表学术论文55篇,其中SCI/EI收录33篇,第一或通讯作者共31篇;已获国际专利PCT20项,已申请/授权国家专利110项,担任8家国际知名SCI期刊杂志审稿人。2021年通过“四川大学双百人才B计划”,并荣获“四川大学好未来优秀学者一等奖”、“四川大学先进个人”,主编出版本科教材一部。
开设课程
本科课程:《制造业发展动态讨论课》 《工业企业管理》 《数据分析及数值计算》
研究生课程:《先进制造技术》
在研项目:
主持国家科学自然基金重大仪器专项课题,深部岩石原位保真取芯与保真测试分析系统,51827901,2019/1/1-2024/12/30,1100万
主持四川省重大科技专项,电子产品复杂精密件数字化车间关键技术研究及应用示范,2020ZDZX0025,2020/1/1-2022/12/30,60万元
授权专利
[1] Ling Chen, Wu Zhao, Wei Jiang, et al. Adjustable ultrasonic micro-jet nozzle array with minimal quantity lubrication. US, US10744528B2. 2020-08 -18, 美国发明专利
[2] 陈领 CHEN LING; 谢和平 XIE HEPING; 高明忠 GAO MINGZHONG; 张志龙 ZHANG ZHILONG; 张茹 ZHANG RU; 张泽天 ZHANG ZETIAN; 鲁义强 LU YIQIANG; 李聪 LI CONG; 何志强 HE ZHIQIANG; 华夏 HUA XIA; 明传剑 MING CHUANJIAN; 彭高友 PENG GAOYOU; 陆彤 LU TONG; CORE DRILLING RIG LIQUID CHANNEL STARTING MECHANISM, 2020-2-20, WIPO, PCT/CN2018/109034, 国际PCT专利.
[3] CHEN, Ling 陈领; XIE, Heping 谢和平; GAO, Mingzhong 高明忠; ZHANG, Jinjing 张晋京; WANG, Man 王满; ZHAO, Wu 赵武; HUA, Xia 华夏; MING, Chuanjian 明传剑; XIE, Jing 谢晶; Yiqiang 鲁义强;PENG; Gaoyou 彭高友; LU, Tong 陆彤; CHAIN ARMOR TYPE FLAP VALVE, 2020-2-20, WIPO, PCT/CN2018/108973. 国际PCT专利
[4] 陈领; 谢和平; 高明忠; 张茹; 张志龙; 张泽天; 赵武; 华夏; 明传剑; 陆彤;何志强; 李聪; CORE CUTTING DEVICE, 2020-2-20, WIPO, PCT/CN2018/108975. 国际PCT专利
[5] 陈领; 谢和平; 高明忠; 张志龙; 张茹; 张泽天; 鲁义强; 李聪; 何志强; 华夏; 明传剑; 彭高友; 陆彤; AUTOMATICALLY CLOSING MECHANISM OF CORE DRILLING RIG, 2020-2-20, WIPO, PCT/CN2018/109032, 国际PCT专利.
[6] 陈领; 谢和平; 高明忠; 张志龙; 张茹; 张泽天; 鲁义强; 李聪; 何志强; 华夏; 明传剑;彭高友; 陆彤; CORE DRILLING RIG LIQUID CHANNEL STARTING MECHANISM, 2020-2-20, WIPO, PCT/CN2018/109034. 国际PCT专利
[7] 陈领; 谢和平; 高明忠; 张志龙; 张茹; 张泽天; 鲁义强; 李聪; 何志强; 华夏; 明传剑;彭高友; 陆彤; AUTOMATIC START-STOP MECHANISM FOR CORE DRILL, 2020-2-20,WIPO, PCT/CN2018/109035. 国际PCT专利
[8] 陈领; 谢和平; 高明忠; 张志龙; 张茹; 张泽天; 鲁义强; 李聪; 何志强; 华夏; 明传剑; 彭高友; 陆彤; AUTOMATIC STARTING MECHANISM FOR CORE DRILLING RIG, 2020-2-20, WIPO, PCT/CN2018/109036, 国际PCT专利
[9] 四川大学,深圳大学 ;谢和平,高明忠,陈领,张茹,张志龙,鲁义强,何志强,李聪,华夏,明传剑,陆彤,彭高友;钻机外筒解锁机构(同时报发明);专利号:2018212993472018/8/13,授权日2019-03-07,实用新型
[10] 四川大学,深圳大学;陈领,谢和平,高明忠,张晋京,王满,赵武,华夏,明传剑,谢晶,鲁义强,彭高友,陆彤;一种锁子甲式翻板阀(同时报发明);专利号:201821299390.7,2018/8/13 ,授权日2019-03-07, 实用新型
[11] 四川大学,深圳大学;高明忠,谢和平,陈领,张茹,张志龙,张泽天,鲁义强,李聪,何志强,华夏,明传剑,彭高友,陆彤 一种岩芯存储筒(同时报发明);专利号:201821299453.9,2018/8/13 ,授权日2019-03-07,实用新型
[12] 四川大学/深圳大学,陈领,谢和平,高明忠,张志龙,张茹,张泽天,鲁义强,李聪,何志强,华夏,明传剑,彭高友,陆彤 取芯钻机液道启动机构(同时报发明);专利号:201821299464.7,2018/8/13,授权日2019-03-07,实用新型
[13] 四川大学/深圳大学, 谢和平,陈领,张茹,高明忠,张泽天,赵武,鲁义强,李聪,何志强,华夏,明传剑,彭高友,陆彤,一种具有防爆功能的保压筒上部密封结构(同时报发明);专利号:201821302186.6, 2018/8/13 ,授权日2019-03-07,实用新型
[14] 四川大学,万浩,明传舰,华夏,郭鑫,陶冶,陈领,宋兴格,李琴,廖莹一种核辐射环境下电子枪检修设备,专利号201721323458.6,授权日2018-05-09,实用新型
[15] 四川大学,廖莹,李德贵,万浩,宋兴格,陶冶,陈领,郭鑫,李琴 一种核辐射环境下电子枪检修设备;专利号:201721325828.X, 授权日2018-05-10,实用新型
[16] 四川大学,李琴,于泽源,胡晓,宋兴格,陶冶,陈领,郭鑫,万浩,廖莹,一种核辐射环境下电子枪检修设备;专利号:201721319890.8,授权日2018-05-11,实用新型
[17] 四川大学,华夏,陈领,谢和平,高明忠,明传舰,李聪,何志强,鲁义强,一种自动控制的高稳定性保压取芯装置;专利号:201721319816.6 ,授权日2018-05-12 ,实用新型
[18] 四川大学,赵武;王晨;李小明;樊小西;曾杰;杨凯;夏鹏;李小龙;胡炳星;尚万;郭鑫;张君松;张永备;牛振宇;张凯;陈领,自动纠偏恒速恒张力复卷机;专利号:CN201310206943.5,授权日2015-12-2,发明专利
[19] 四川大学,赵武;邓德强;向愿;张旭领;陈领;陈红;鲍振军,汽车液压助力转向器可靠性试验台及程控试验方法;专利号:CN200910060048.0,授权日2011-08-17,发明专利
[20] 四川大学,于泽源,万浩,赵武,陶冶,郭鑫,陈领,于淼,吴年汉,廖莹,胡晓,李琴,三维非正交跟踪扫描测头校准方法;专利号:201810383428.7,授权日2011-08-18,实用新型
近期论文
查看导师最新文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
[1] 高明忠,陈领*,凡东,杨明庆,刘程,李佳南,赵乐,田东庄,李聪,王瑞泽,谢和平.深部煤矿原位保压保瓦斯取芯原理与技术探索[J].煤炭学报,2021,46(03):885-897.
[2] Chen, L. , Du, Q. , Yu, M. , Guo, X. , & Zhao, W. . (2021). Measuring the effect of residual stress on the machined subsurface of inconel 718 by nanoindentation. PLoS ONE, 16(1), e0245391.
[3] Wu, Nianhan; Xie, Heping; Chen, Ling*; Gao, Mingzhong; Li, Cong. Sealing Form and Failure Mechanism of Deep In Situ Rock Core Pressure-Maintaining Controller.Geofluids.2020 November 2020. Geofluids. 2020(11):1-15.
[4] Yu, Bo; Xie, Heping; Chen, Ling*; Zhao, Wu; He, Zhiqiang. Exploration of Digital Twin Design Mechanism of the Deep in Situ Rock Insulation Coring Device.Geofluids.2020.
[5] Li, Jianan; Xie, Heping; Chen, Ling*; Li, Cong; He, Zhiqiang. Exploring Deep-Rock Mechanics through Mechanical Analysis of Hard-Rock In Situ Coring System.Advances in Civil Engineering.2020.
[6] He, Zhiqiang; Xie, Heping ; Gao, Mingzhong; Chen, Ling*; Yu, Bo; Hu, Yunqi; Yang, Jianping. Design and Verification of a Deep Rock Corer with Retaining the In Situ Temperature. Advances in Civil Engineering.2020
[7] Guo, X., et al. (2020). Research on Tool Selection Strategy Based on Multi-method Integration. 16th IEEE International Conference on Automation Science and Engineering, CASE 2020, August 20, 2020 - August 21, 2020, Hong Kong, Hong kong, IEEE Computer Society. 624-629 (EI/SCI: 9217033)
[8] 余波,赵武,陈领*,高明忠,何志强,万浩. 深部岩层原位保真取心主动保温系统创新设计[J]. 工程设计学报,2020,27(04):407-415.
[9] 龙重旺,陈领*,郭智兴,郭鑫,刘俊波,赵武. TiAlN涂层与Al_2O_3复合涂层刀具高温合金切削性能研究[J]. 组合机床与自动化加工技术,2020(09):154-157.
[10] 李斌斌,陈领*,赵武,于淼,张凯. 微织构刀具织构参数优化仿真研究[J]. 现代制造工程,2020(10):91-96.
[11] Chen, L., et al. (2019). Development of coring system with in-situ condition for deep rock by ultrasonic. Deep Rock Mechanics: From Research to Engineering. 353-359 (WOS:000505065000035)
[12] He, Zhi Qiang; Chen, Ling*; Lu, Tong; Xie, Jing; THE OPTIMIZATION OF PRESSURE CONTROLLER FOR DEEP EARTH DRILLING , Thermal Science, 2019, 23:S877-S885.
[13] Wan, Hao; Zhao, Wu; Hua, Xia; Yu, Bo; Guo, Xin; Chen, Ling*; NUMERICAL STUDY OF INFLUENCE OF DEEP CORING PARAMETERS ON TEMPERATURE OF IN-SITU CORE , Thermal Science, 2019, 23(3): 1441-1447.
[14] 明传舰,陈领*,郭鑫,华夏. 深海钻机保压控制装置创新设计[J]. 制造业自动化, 2019, 41(03): 77-82,96.
[15] 华夏,陈领*,赵武,李德贵,胡晓,明传舰.面向新能源汽车电子水泵的柔性制造系统[J].机械制造,2019,57(04):66-69.
[16] 胡晓, 陈领*, 赵武. Inconel625高速车削过程切削力有限元仿真研究[J]. 制造业自动化, 2018(06): 78-82.
[17] Chen L, Stahl J E, Zhao W, et al. Assessment on abrasiveness of high chromium cast iron material on the wear performance of PCBN cutting tools in dry machining[J]. Journal of Materials Processing Technology, 2018, 255:110-120.
[18] Ling Chen*, Hao Wan, Wu Zhao, Xin Guo, Jan-Eric Stahl, Jinming Zhou(2018). Machinability study of high abrasive white cast iron by dry machining. ICHSM& WPCCT 2018.
[19] Ling Chen, Xin Guo,*, Hao Wan, Hua Xia, Yiqiang Lu, Cong Li, Zhiqiang He (2018). Development of coring system with in-situ condition for deep rock by Ultrasonic. IC3G 2018.
[20] Hao Wan, Ling Chen*, Xin Guo, Wu Zhao (2018). Knowledge Acquisition Model and Methods for Process Planning. DSR 2018.
[21] Chen L, Ahadi A, Zhou J, et al. Quantitative study of roughness effect in nanoindentation on AISI316L based on simulation and experiment[J]. Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, 2016,231(21),4067-4075.
[22] Chen L, Persson J, Ståhl J E, et al. Nano-Scratching resistance of high-chromium white cast iron and its correlation with wear of cBN tool in machining[J]. Journal of Superhard Materials, 2017, 39(5):365-372.
[23] Chen, L., Zhou, J., Bushlya, V., Gutnichenko, O., & Stahl, J. E. (2015). Performance assessment of pCBN and bCBN tools in machining of high-chromium white cast iron[J]. The International Journal of Advanced Manufacturing Technology, 79(1-4), 635-644.
[24] Chen, L., Iyengar, S., Zhou, J., Turba, K., & Ståhl, J. E. (2015). Characterization of microstructure and mechanical properties of high chromium cast irons using SEM and nanoindentation[J]. Journal of Materials Engineering and Performance, 24(1), 98-105.
[25] Chen, L., Ståhl, J. E., & Zhou, J. (2015). Analysis of In Situ Mechanical Properties of Phases in High-Alloyed White Iron Measured by Grid Nanoindentation[J]. Journal of Materials Engineering and Performance, 24(10), 4022-4031.
[26] Chen, L., Ahadi, A., Zhou, J., & Ståhl, J. E. (2014). Numerical and Experimental Study of the Roughness Effects on Mechanical Properties of AISI316L by Nanoindentation[J]. Modeling and Numerical Simulation of Material Science, 4(04), 153.
[27] 陈领; 赵武 ; 基于创新方法的环卫机械产品设计 机械设计与制造 2010 (12): 253-255.
[28] Chen, L., Zhou, J., Bushlya, V., & Stahl, J. E. (2015). Influences of micro mechanical property and microstructure on performance of machining high chromium white cast iron with cBN tools. Procedia CIRP, 31, 172-178.
[29] Chen, L., Zhou, J. M., Bushlya, V., Gutnichenko, O., & Ståhl, J. E. (2014, November). High performance machining of high chromium wear resistance materials with pcBN and bcBN tools. In The 6th Swedish Production Symposium.
[30] Chen, L., Iyengar, S., Zhou, J. M., Turba, K., & Ståhl, J. E. (2014, November). Nanoindentation and microstructure analysis of high chromium white cast iron for machinability study. In The 6th Swedish Production Symposium.
[31] Chen, L., Ahadi, A., Zhou, J., & Ståhl, J. E. (2013). Modeling effect of surface roughness on nanoindentation tests. Procedia CIRP, 8, 334-339.
[32] Chen, L, Ahadi, A., Zhou, J., & Ståhl, J. E. (2012). Characterization of mechanical properties of machined surface by nanoindentation — Part 1: Simulation of indenter geometry effects, The 5th Swedish Production Symposium. 2012. The Swedish Production Academy.
[33] Chen, L, Ahadi, A., Zhou, J., & Ståhl, J. E. (2012). Simulation of indenter geometry effects in nanoindentation, Nordic Seminar in Computational Mechanics, NSCM-25.
[34] Chen,L, Zhao, W., & Bao, Z. (2010). Research into Innovative Modular Design in the Logistics System. In ICLEM 2010@ sLogistics For Sustained Economic Development: Infrastructure, Information, Integration (pp. 547-554). ASCE.
京公网安备 11010802027423号