论文列表
a) 排名及影响因子出处:科睿唯安(原汤森路透)Journal Citation Reports(JCR)“https://jcr.clarivate.com/JCRLandingPageAction.action“.
b) 通讯作者标注*.
[1] Kun Li, Chen Ji, Shengwen Bai, Bin Jiang, Fusheng Pan, Selective laser melting of magnesium alloys: necessity, formability, performance, optimization and applications. Journal of Materials Science & Technology, 2022. [SCI] 影响因子: 10.319 (2021), (JCR一区)
[2] Kun Li, V.S.Y. Injeti, P. Trivedi, et al. Nanoscale deformation of multiaxially forged ultrafine-grained Mg-2Zn-2Gd alloy with high strength-high ductility combination and comparison with the coarse-grained counterpart. Journal of Materials Science & Technology, 2018, 34(2) : 311-316. [SCI] 影响因子: 10.319 (2021), (JCR一区)
[3] Kun Li, Jianbin Zhan, Tianbao Yang, et al. Homogenization timing effect on microstructure and precipitation strengthening of 17-4PH stainless steel fabricated by laser powder bed fusion. Additive Manufacturing, 2022, 52:102672. [SCI] 影响因子: 11.632 (2021), (JCR一区)
[4] Kun Li, V.S.Y. Injeti, R.D.K. Misra, et al. The contribution of long-period stacking-ordered structure (LPSO) to high strength-high ductility combination and nanoscale deformation behavior of magnesium-rare earth alloy. Materials Science and Engineering A, 2018, 713: 112-117. [SCI] 影响因子: 6.044 (2021), (JCR一区)
[5] Kun Li, M.A. Klecka, Shuying Chen, et al. Wire-arc additive manufacturing and post-heat treatment optimization on microstructure and mechanical properties of Grade 91 steel. Additive Manufacturing, 2021, 37:101734. [SCI] 影响因子: 11.632 (2021), (JCR一区)
[6] Kun. Li, Jianbin Zhan, Ming Zhang, Ruijin Ma, et al. A functionally graded material design from stainless steel to Ni-based superalloy by laser metal deposition coupled with thermodynamic prediction. Materials & Design, 2022, 217. [SCI] 影响因子: 9.417 (2021), (JCR一区)
[7] Kun. Li, Ruijin. Ma, Ming Zhang, et al. Hybrid post-processing effects of magnetic abrasive finishing and heat treatment on surface integrity and mechanical properties of additively manufactured Inconel 718 superalloys. Journal of Materials Science & Technology, 2022, 128: 10-21. [SCI] 影响因子: 10.319 (2021), (JCR一区)
[8] Kun Li, Bing Yu, R.D.K. Misra, et al. Strain rate dependence on the evolution of microstructure and deformation mechanism during nanoscale deformation in low carbon-high Mn TWIP steel. Materials Science and Engineering: A, 2019, 742: 116-123. [SCI] 影响因子: 6.044 (2021), (JCR一区)
[9] Kun Li, Bing Yu, R.D.K. Misra, et al. The significance and design of hybrid process in governing high strength-high toughness combination of fiber laser-welded T-250 maraging steel joint. Materials Science and Engineering A, 2018, 718: 173-181. [SCI] 影响因子: 6.044 (2021), (JCR一区)
[10] Xin Wu, Xiyue Chen, Ruxue Yang, Jianbin Zhan, Yingzhi Ren, Kun Li*, Recent Advances on tuning the interlayer coupling and properties in van Der Waals heterostructures, Small, 2022, 18(15): 2105877. [SCI] 影响因子: 15.15 (2021), (JCR一区)
[11] Kun Li, V.S.Y. Injeti, P. Trivedi, et al. Microstructure, mechanical properties and deformation behavior of Mg-Gd-Zn alloy. Proc. of the 147th Minerals, Metals and Materials Series (TMS2018), Phoenix, USA, March 11-15, 2018.
[12] Kun. Li, Jianbin Zhan, Peng Jin, et al. Functionally Graded Alloys from 316 Stainless Steel to Inconel 718 by Powder-Based Laser Direct Energy Deposition[J]. Proc. of the 150th Minerals, Metals and Materials Series (TMS2022), Anaheim, USA, February 27-March 3, 2022.
[13] Kun Li, Jianbin Zhan, Ruijin Ma, Yingzhi Ren, Jinxin Lin, A functionally gradient NiTi shape-memory alloy fabricated by selective laser melting, Proc. of the 17th ASME-International Manufacturing Science and Engineering Conference (MSEC2022), West Lafayette, USA, June 27-July 1, 2022.
主持项目
[1] 美国国家能源部国际合作项目(US Department of Energy),基于可溶性支撑、拓扑优化和微组织设计的核电站组件激光粉床增材制造研究 (Integrating dissolvable supports, topology optimization, and microstructure design to nuclear plant components produced by laser-based powder bed fusion),DE-FE0031637,2019/01-2022/12;
[2] 新加坡科技研究局国际合作项目(Singapore A*STAR),轻质高熵合金激光直接沉积成形技术研究(Laser direct energy deposition of lightweight high-entropy alloys),N57943876,2019/01-2020/12;
[3] 美国国家能源技术实验室国际合作项目(US National Energy Technology Laboratory),增材制造化石燃料发电组件梯度结构的集成计算材料设计及力学建模(Integrated computational materials and mechanical modeling for additive manufacturing of alloys with graded structure used in fossil fuel power plants),NETL0031637,2020/01-2021/10;
[4] 国家自然科学基金项目,激光选区熔化制备超固溶耐热镁稀土合金的基础研究,52201105,2023/01–2025/12;
[5] 国家重点实验室青年人才项目,高强医用镁稀土合金激光增材制造一体化技术研究,SKLMT-ZZKT-2022R03,2022/01-2023/12;
[6] 重庆市自然科学基金项目,基于组织梯度设计的激光选区熔化成形高弹热制冷镍钛记忆合金的基础研究,CSTB2022NSCQ-MSX0992,2022/08-2024/07;
[7] 重庆市科技局鲁渝科技协作计划项目,激光增材制造用于喷涂机活塞的高性能铝基复合材料,cstc2021jscx-lyjsAX0009,2021/01-2022/12;
[8] 重庆大学中央高校基本科研业务费“前言交叉专项”,超高强高韧钢激光一体化成形行为及调控方法,2021CDJQY-024,2021/01-2022/12;
[9] 杰品合作项目,GH3625高温部件SLM成形多尺度热-力耦合模型,H20220287,2022/01-2022/12。
专业服务
1. Guest Editor
[1] Advanced Micro- and Nano-Manufacturing Technologies, Special Issue on Micromachines, 2021.
[2] Machining Technology and Environmental Degradation Mechanism of Surface Microstructure of Special Materials, Special Issue on Frontiers in Materials, 2021.
[3] High Energy Additive Manufacturing of Advanced Materials, Special Issue on Frontiers in Materials, 2022.
[4] 《航空制造技术》专刊“激光增材/微纳制造”,2022.
2. Organizing Committee
[1] International Congress on Applications of Lasers & Electro-Optics (Fellow)
[2] 机械工程学会增材制造分会委员
[3] 机械工程学会极端制造分会委员
[4] 有色金属学会增材制造技术专业委员会委员
3. Program Committee Member
[1] 2021 International Conference on Mechanical Design and Manufacturing, Automation System (Co-Chair)
[2] Global Conferenceon Aerospace Engineering and Technology (GCAET2021, Co-Chair)
[3] 2nd International Conference on 3D Printing and Additive Manufacturing (3DPRINTINGMEET2022, Committee)
4. Journal Review
[1] Acta Materialia
[2] Nature Communications
[3] Micromachines
[4] 机械工程学报
[5] Journal of Materials & Technology
[6] Materials & Design
[7] Materials Scicence and Engineering A
[8] Optics & Laser Technology
学院地址:重庆市渝北区两江大道9号
邮政编码:401135
官方邮箱:eie@cqu.edu.cn
