李璞,重庆大学与美国西北大学联培博士,师从黄庆学院士,主要从事空间智能机器人卫星、全电航空发动机领域的摩擦学、固体力学、空间电接触理论、先进结构和材料的多物理场耦合、金属基复合材料成形与轧制理论等方面的教学与科研工作。2017年赴德国柏林工业大学,跟随知名粘附接触力学专家Feodor M. Borodich 院士、Valentin L. Popov教授学习;2019年赴美国西北大学,师从固体力学大师Leon M. Keer院士和Q. Jane Wang院士进行微观力学、接触力学、断裂力学等方面的博士联合培养。2021年7月,进入哈尔滨工业大学(深圳)国家青年千人李东风教授团队,进行先进材料和结构的多物理场耦合理论研究。2023年8月,全职加入四川大学空天科学与工程学院。
目前,在机械、力学、热学、电学等主流期刊上发表论文40余篇,学术专著章节3篇,公开发明专利10项,授权3项,主持国家自然科学基金、全国重点实验室开放基金、中央高校基础科研专项、四川省面上项目以及国防科工企业重点研发项目等10余项,参与国家自然科学基金重点项目、国家863计划、航天五院科技攻关等多个重大研发项目,部分研究成果已在太行国家实验室、航天科技集团五院、中航工业成飞、中国商飞等企事业单位获得工程应用,获教育部工程技术研究成果一等奖、四川大学教学成果一等奖、年度优秀教师、哈工大优秀博士后等荣誉,现担任摩擦学领域期刊FRONT MECH ENG - TRIBOL的评审编委,《航空发动机》青年编委,以及AMM、IJMS、MM、TI、IJSS等多个SCI期刊的国际审稿人。
1. 机器人卫星结构与机构
2. 空间摩擦学与界面力学
3. 空间电接触理论及应用
2023至今 四川大学,空天科学与工程学院,副教授/副研究员
2021-2023 哈尔滨工业大学(深圳),理学院,博士后,助理研究员
2019-2020 美国西北大学,工学院,访问学者
2017-2017 德国柏林工业大学,工学院,访问学者
2016-2021 重庆大学,机械与运载工程学院,工学博士
[1] C. Deng, P. Li*, Y. Huang, et al., Exploration of SPS and cold-roll forming processes of cu-ag alloy applied in space conductive slip rings base on vacuum current-carrying tribological behavior, Journal of Manufacturing Processes, 2026.
[2] L. Yang, P. Li*, Y. Huang, et al., Investigation of tribological and electrical behavior of CARB-processed multilayer Cu/Ag composites for spatial conductive slip rings, Wear, 2026, 595: 206693.
[3] B. Yang, P. Li*, K. Liu, et al., Semi-analytical modeling of coating–crack–defect interactions using a combined distributed dislocation technique and numerical equivalent inclusion method, Tribology International, 2026, 214: 111199.
[4] P. Xu, P. Li*, Q. Zhou, et al., Dynamic self-healing of liquid metal in Cu–Ag alloy nano-scratch with molecular dynamics and experimental study, Tribology International, 2026, 217: 111682.
[5] P. Li, N. Ma, Q. Zhou, et al., An efficient micromechanical approach to thermoelastic coupling in heterogeneous materials with dual material-nonlinearity, International Journal of Heat and Mass Transfer, 2025, 251: 127358.
[6] K. Liu, P. Li*, B. Yang, et al., Cuboidal inclusion problem revisited: Unified expressions for the complete elastic fields and numerical implementation based on FFT, Tribology International, 2025, 213: 111099.
[7] N. Ma, P. Li*, X. Luo, et al., Convolution-compatible modeling of elastic fields induced by inclusions with linearly varying eigenstrains, Mechanics of Materials, 2025, 210: 105475.
[8] X. Luo, P. Li*, Q. Zhou, et al., A micromechanical model for solving competitive relationship between Joule and frictional heating in sliding electrical contact, International Journal of Heat and Mass Transfer, 2025, 252: 127511.
[9] B. Yang, P. Li*, K. Liu, et al., Analysis of kinked cracks interacting with multiple inhomogeneities, International Journal of Mechanical Sciences, 2025, 304: 110703.
[10] G. Ding, P. Li*, X. Luo, et al., Semi-analytical method for thermal field analysis of multiple arbitrarily shaped inhomogeneities in heterogeneous geological media, Computers & Geosciences, 2025, 205: 106025.
[11] K. Liu, P. Li*, B. Yang, et al., A versatile three-dimensional contact analysis for heterogeneous materials, International Journal of Solids and Structures, 2025, 318: 113440.
[12] L. Yang, Q. Zhou, P. Li*, et al., A Novel Analytical-Empirical Eulerian Method for the Hyperelastic Layers under Punch Compression, Mechanics of Materials, 2025, 207: 105391.
[13] P. Li, K. Zhu, Z. Jiang, et al., Displacements produced by linearly varying eigenstrains with application to isoparametric triangular inclusion, Mechanics of Materials, 2022, 171: 104376.
[14] P. Li, J. Li, F. Borodich, D. Li, X. Jin, An isoparametric inclusion model for determining the thermo-elastic fields produced by varying Eigen-temperature gradients, Applied Mathematical Modelling, 2024, 129: 545-565.
[15] P. Li, J. Jiang, H. Soewardiman, et al., A numerical method based on Polonsky-Keer’s conjugate gradient iterative scheme for solving axisymmetric contact of layered half-space, Mechanics Research Communications, 2022, 124: 103946.
[16] T. Tang, Z. Jiang, K. Zhu, K. Liu, W. bai, P. Li*, et al., Analytic solutions for displacements in quantum-wire structures, Mechanics Research Communications, 2023, 133: 175701.
[17] K. Zhu, Z. Jiang, D. Lyu, P. Li*, et al., On the transition of the contact eccentricity of an elastic layer resting on a rigid frictionless substrate, Mechanics Research Communications, 2022, 124: 103927.
[18] P. Li, D. Lyu, H. Soewardiman, et al., Analytical and numerical evaluation of the interaction energy between screw dislocation and inhomogeneous inclusion. Mechanics of Materials, 2021, 156: 103788.
[19] P. Li, X. Zhang, D. Lyu, et al., A computational scheme for the interaction between an edge dislocation and an arbitrarily shaped inhomogeneity via the numerical equivalent inclusion method, Physical Mesomechanics, 2019, 22(2): 164-171.
[20] D. Lyu, Z. Jiang, K. Zhu, P. Li*, et al., The explicit elastic field for two perfectly bonded half-spaces with an ellipsoidal thermal inclusion, International Journal of Mechanical Sciences, 2023, 236: 107745.
[21] P. Li, X. Zhang, D. Lyu, et al., A computational scheme for the interaction between an edge dislocation and an arbitrarily shaped inhomogeneity via the numerical equivalent inclusion method, Fizicheskaya Mezomekhanika, 2018, 21(6): 157-164.
[22] P. Li, K. Zhu, J. Hou, et al., A numerical equivalent inclusion method for determining the interaction energy between inhomogeneities and dislocations, Engineering Mechanics, 2021, 39(7): 10-18.
[23] J. Li, N. Chen, P. Li*, X. Jin, A contact model of heterogeneous material by method of images, Journal of Physics, 2021, 2002(1): 012027.
[24] P. Li, X. Zhang, Y. An, et al., Analytical solution for the displacement of a polygonal inclusion with a special application to the case of linear eigenstrain, European Journal of Mechanics-A/Solids, 2020, 84: 104049.
[25] P. Li, X. Jin*, X. Zhang, et al., On the inclusion model of localized heating in an elastic plane, Materials Science and Engineering, 2019, 576 (1): 012026.
[26] P. Li, X. Zhang, D. Lyu, et al., A computational scheme for the interaction between an edge dislocation and an arbitrarily shaped inhomogeneity via the numerical equivalent inclusion method, Physical Mesomechanics, 2019, 22: 164-171.
[27] X. Jin, P. Li, F.M. Borodich, Contact Problems for Soft, Biological and Bioinspired Materials, , in “Indentation tests of biological materials: Theoretical aspects”, New York, 2022.
[28] Z. Jiang; K. Liu; K. Zhu; P. Li*; X. Jin, A numerical determination of the interactions between dislocations and multiple inhomogeneities, in “Mechanics of Heterogeneous Materials”, Springer, Switzerland, 2023.
[1] 李璞; 周青华; 骆孝武; 张强; 刘艳敏; 空间高功率旋转电传输真空载流服役机制与放电抑制技术研究, 2025高端装备产业发展大会.(特邀报告)
[2] Pu Li; Kuanyu Liu; Hengxu Song; Zhizhen Jiang; Feodor M. Borodich; Xiaoqing Jin; A Versatile Three-Dimensional Contact Analysis for Heterogeneous Material, International Congress of Theoretical and Applied Mechanics (ICTAM) 2024.
[3] Pu Li; Xiangyu Gao; Kai Zhu; Zhizhen Jiang; Guocai Zheng; Study on microstructure evolution and interaction mechanism of rolled composites, 第十八届全国塑性工程学术年会暨第十届全球华人塑性技术研讨会.
[4] Pu Li; Xiaowu Luo; Qinghua Zhou; Jinran Li; Keao Qi; Li Yang; Semi-Analytical Model for Analyzing Microstructural Effects in Conductive Sliding Contacts, 7th Asia International Conference on Tribology (ASIATRIB2024) & 9th China International Conference on Tribology (CICT2024).
[5] 李璞; 骆孝武; 陈瑶; 李锦然; 周青华; 蒲伟; 空间滑动电接触行为的微观力学模型, 2025年全国青年摩擦学学术会议.(获评优秀口头报告)
[6] 李璞; 骆孝武; 周青华; 刘艳敏; 张 强; Cu/Ag复合材料在交叉累积轧制过程中的力电协同性能调控研究, 2025年第十九届全国塑性工程学术年会暨第十一届全球华人塑性技术研讨会.
[1] 国家自然科学基金青年项目, 52205192,负责人.
[2] 中央高校基本科研业务费专项, 1082204112I37, 负责人.
[3] 四川省自然科学基金面上项目, 2026NSFSC0292, 负责人.
[4] 空间驱动与操控机构专业实验室和空间智能控制技术全国重点实验室开放基金, BICE-SDMM-2025-02, 负责人.
[5] 高端装备机械传动全国重点实验室开放基金, SKLMT-MSKFKT-202528, 负责人.
[6] 中央高校基本科研创新项目, KYCX201814, 负责人.
[7] 重庆市基本科研创新项目, CYB18020, 负责人.
[1] 李璞; 邓超文; 刘艳敏; 黄彦彦; 周青华; 骆孝武; 杨林; 徐鹏辉; 张瑞; 张强; 蒲伟; 一种铜银合金力-电协同增强的烧结耦合轧制制备方法, 2026-02-03, 中国, 2026101499861.
[2] 李璞; 魏薇; 周青华; 陈易明; 骆孝武; 常成; 陈佳俊; 李锦然; 杨万友; 曹伟; 蒲伟, 一种航空发动机辅助轴承微观热接触弹性场计算方法, 2025-09-06, 中国, 2025112688612.
[3] 李璞; 魏薇; 张强; 周青华; 刘艳敏; 陈勃翰; 骆孝武; 陈佳俊; 李锦然; 蒲伟; 朱浩, 一种空间电传输机构磨屑耦合场的评估计算方法, 2025-02-08, 中国, 2025102320784.
[4] 李璞; 陈瑶; 周青华; 时志奇; 骆孝武; 漆科傲; 陈佳俊; 李锦然; 杨万友; 曹伟; 蒲伟, 基于接触位错耦合的航空发动机传动部件损伤分析方法, 2025-09-06, 中国, 2025112688627.
[5] 李璞; 骆孝武; 张强; 刘艳敏; 张淑敏; 蒋俊; 周青华; 蒲伟; 朱浩, 一种空间导电滑环电热力耦合高效迭代计算方法, 2024-04-01, 中国, 2024103857509.
[6] 李璞; 李嘉禾; 周青华; 刘艳敏; 张强; 李磊; 骆孝武; 陈佳俊; 李锦然; 蒲伟; 朱浩, 一种导电滑环电接触磨损计算方法, 2025-02-28, 中国, 202510232077X.
[7] 李璞; 刘艳敏; 陈佳俊; 张强; 李利; 叶壮; 周青华; 蒲伟; 朱浩, 一种基于有限元的导电滑环粗糙面建模方法, 2024-08-21, 中国, 2024111501271.
2023-至今
本科生课程:新概念卫星设计
研究生课程:空间摩擦学前沿与应用、计算固体力学
2021-2023
本科生课程:连续介质力学
研究生课程:Advances in Computational Mechanics、Nonlinear Mechanics of Solids
国家自然科学基金评审专家;
美国机械工程师协会(ASME)会员;
国际摩擦学与润滑力学工程师协会(STLE)会员;
机械工程学会会员;
哈尔滨工业大学理学院青年教师协会会员;
长期担任AMM、IJMS、MM、Tribol Int、IJSS等SCI期刊的审稿专家
马宁宁,毕业去向:清华大学博士研究生
丁冠翔,毕业去向:北京航空航天大学博士研究生
课题组与美国西北大学、加州大学、新加坡国立大学、柏林工业大学、哈工大、西交大、北理工等国内外知名高校的科研团队保持着积极的学术交流,课题组常年招收本科学术实习生(科研论文与竞赛方向,2~3人,有意者请提前联系)、硕士/博士生(学术/专业),其中优秀的学生代表将有机会被推荐到上述知名高校进行深造学习和学术交流,欢迎机械、力学、材料、航空宇航科学与工程等相关专业且有志于科学研究的优秀毕业生报考!
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