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个人简介

学历情况: 2013-12至2015-06,英国Strathclyde大学,设计制造及工程管理,国家公派联合培养博士 2012-12至2015-07,四川大学,机械制造及其自动化,博士 2010-09至2012-07,四川大学,钢铁冶金,硕士(提前攻博) 2006-09至2010-07,四川大学,材料成型及控制工程,学士 工作经历: 2019-09至现在,四川大学,机械工程学院机械系,副教授 2017-06至现在,四川大学,机械工程,博士后 2017-05至2018-03,四川大学,机械工程学院,兼职科研秘书 2016-01至2019-08,四川大学,机械工程学院机械系,讲师 近十年来一直从事外场辅助复杂零件制造技术及零件性能调控技术的研究、微型零件制备技术的开发和研究。完成了多项国内航空、核工业及地方企业的关键技术攻关。曾获四川省科技进步一等奖1项,四川大学科技进步二等奖1项;主持了1项国家自然科学基金项目,10余项四川省重点研发项目和企业横向课题;发表学术论文近30篇;获得发明专利8项;参与撰写英文专著1部;参编教材1本;国际期刊《Manufacturing Review》等审稿人。 开设课程 本科:《工程热力学与传热学》、《数值分析与数据计算》 研究生:《材料成型过程及控制》 在研项目 (1) 基于大数据的智能云酒柜关键技术与应用研究,纵向,主持 (2) 航空发动机叶片精密高效加工技术成果转移转化,四川省科技厅,子课题主持 (3) Ti2AlNb电子束焊接接头脉冲电磁场增寿技术研究,纵向,子课题主持 (4) 基于Micro-FAST制备TC4-TiB2微型齿轮的研究,纵向,主持 (5) Micro-FAST微制造技术中颗粒尺寸效应的行为与特征研究,国家自然科学青年基金项目,主持 授权专利 [1] 发明专利:一种双电极-双线圈脉冲电磁耦合强化金属材料装置 [2] 发明专利:多物理场耦合超快速烧结集成设备 [3] 发明专利:钛合金微型零件的近净制造方法及微型超声电机转子 [4] 发明专利:一种电场辅助的钛合金微齿轮挤压成型模具及其方法 [5] 发明专利:钛合金微齿轮的微塑性成形方法 [6] 发明专利:基于多物理场活化烧结制备微型超声电机定子的方法 [7] 发明专利:多物理场耦合作用下快速烧结制备WC-Co硬质合金的方法 [8] 实用新型专利:一种复杂曲面柔性夹具 [9] 实用新型专利:多物理场耦合烧结模具

近期论文

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[1] Qianwen Zhang, Kunlan Huang*, Jie Wang, Li Wang, Min Yuan, Yankang Tian, Lin Ouyang. Effect of pulse electromagenetic coupling treatment on thermal conductivity of WC-8Co cemented carbide, Ceramics International, 2021. [2] Yan Xiangzhong; Dan Lei; Yang Yi; Tian Yankang; Huang Kunlan*, Effect of Heating Rate on Formability of Ti6Al4V Alloy Micro-gear Under an Electric Field, Rare Metal Materials and Engineering, 2020, 49(10): 3294-3300 [3] Kunlan Huang; Bing Li, Wei Chen; Jie Wang; Qingyu Huang; Mingxia Wu; Yankang Tian; Jian Liu*, Forming of the Ti6Al4V-60%TiB2 metal-ceramic microcomponent under coupled multi-physical fields for improved microstructures and mechanical performances, Journal of Manufacturing Processes 2020, 57:654-667 [4] Kunlan Huang; Wei Chen; Mingxia Wu; Jie Wang; Kyle Jiang; Jian Liu*, Microstructure and densification of the Ti6Al4V-70%TiB2 metal-ceramic by coupled multi-physical fields-activated sintering, Journal of Alloys and Compounds 2020, 820:153091 [5] Min Yuan, Jie Wang*, Li Wang, Fu Zhong, Kunlan Huang, Yankang Tian. Electromagnetic coupling field strengthening of WC-TiC-Co cermet tools, Ceramics International, 2020, 47(3): 3747-3759. [6] Min Yuan, Jie Wang*, Mei Wang, Kunlan Huang, Li Wang,Yankang Tian. Enhanced carbide tool life by the electromagnetic coupling field for sustainable manufacturing, The International Journal of Advanced Manufacturing Technology, 2020, 108(11): 3905-3914. [7] Wang Li, Yuan Min, Li Yi, Huang Kunlan, Tian Yankang, Zhang Qianwen, Wang Jie*. Cutting Mechanism of WC-8Co Cemented Carbide for Dry Turning of Ti6Al4V Before and After Pulsed Electromagnetic Coupling Processing, Rare Metal Materials and Engineering, 2020, 49(12): 4016-4022. [8] Mingxia Wu; Yi Yang*; Gang Yang; Kunlan Huang; Deqiang Yin; Direct evidence for surface cleaning mechanism during field-activated sintering, Journal of Alloys and Compounds, 2019, 784:975-979. [9] Wu Mingxia; Chen Zhe; Huang Chunjie; Huang Kunlan; Jiang Kyle; Liu Jian*; Graphene platelet reinforced copper composites for improved tribological and thermal properties, RSC Advances, 2019, 9(68): 39883-39892. [10] Kunlan Huang; Yang Yi, Yi Qin, Gang Yang, Deqiang Yin, A new densification mechanism of copper powder sintered under an electrical field, Scripta Materialia 2015, 99:85-88 [11] Kunlan Huang; Yi Yang; Yi Qin, Gang Yang, Densification behavior of copper powder during the coupled multi-physics fields-activated microforming, The International Journal of Advanced Manufacturing Technology 2013, 69:2651-2657 [12] Kunlan Huang, Yi Yang, Yi Qin, Gang Yang. 316L stainless steel powder densification during the coupled multi-Fields activated micro-forming. Materials and Manufacturing Processes, 2013, 28(2):183-188 [13] Kunlan Huang, Yi Yang, Deqiang Yin, Xianzhi Yang, Yi Qin. Effect of electric current magnitude on particles' deformation during the densification process of Micro-FAST, Rare Metal Materials and Engineering, 2015, 44(2): 365-369

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