姓名：张林

性别：男

职称：副研究员

博导/硕导：硕导

研究方向： 表面工程，摩擦学

电子邮箱：zllz19891@163.com

一、个人简介：

张林，工学博士，成都理工大学机械工程专业教师，长期从事极端环境摩擦学与高性能橡胶复合材料研究。围绕深地能源装备、油气工程等国家重大需求，系统开展了高温、高压、多介质耦合环境下材料摩擦磨损与失效机制及其工程应用研究。

近年来，主持国家自然科学基金（青年项目）等科研项目6项，其中国家级、省部级及企业合作项目覆盖基础研究与工程应用多个层面，形成了“机理研究—材料设计—工程应用”的完整研究链条。在Composites Part B、Wear 等国际期刊发表学术论文60余篇，研究成果聚焦于橡胶密封材料、复合涂层及界面调控等前沿方向，在抗磨损、抗腐蚀与服役可靠性方面具有系统性积累。

在技术转化方面，研究紧密对接油气装备与电力工程需求，承担多项企业横向项目，解决了复杂环境下密封失效、磨损加剧等关键工程问题，具备明显的工程落地能力。同时申请及授权专利多项，在材料设计与结构优化方面形成了可推广的技术路径。

在人才培养方面，指导学生参加各类学科竞赛并多次获奖，注重“科研训练前置+工程问题驱动”的培养模式，鼓励学生从真实工程问题出发开展研究，并在高水平论文、项目参与及实践能力方面实现协同提升。

当前团队重点研究方向包括：

深地及油气环境下橡胶密封材料的多场耦合磨损机制

碳纳米材料改性橡胶复合材料设计与界面调控

高温磨粒磨损与腐蚀-老化协同失效行为

面向工程应用的密封结构优化与寿命预测方法

团队科研氛围稳定，方向明确，兼顾学术深度与工程应用价值。欢迎具有材料、机械、力学等背景，对摩擦学、复合材料及工程应用研究感兴趣的同学加入。

三、代表性成果

2025：

[1] Han Yan , Leifeng Shi , Dezhi Zeng , Lin Zhang.Tribological properties of a smart Ti3C2Tx-based epoxy coating: Providing an idea to solve the weak tribological properties of traditional smart coatings[J]Tribology International,2025,202:110302

[2] Han Yan , Dezhi Zeng , Leifeng Shi , Lin Zhang.Multifunctional Ti3C2Tx-based epoxy composite coating towards intelligent response and corrosion/wear resistance[J]Progress in Organic Coatings,2024,196:108746

[3] Yan H, Tan J, Lin Z, et al. Machine Learning-Based Prediction of Tribological Properties of Epoxy Composite Coating[J]. Polymers, 2025, 17(3): 282.

[4] Yan H, Shi L, Lin Z, et al. Tribological properties of a smart Ti3C2Tx-based epoxy coating: Providing an idea to solve the weak tribological properties of traditional smart coatings[J]. Tribology International, 2025, 202: 110302.

[5] Yan H, Shi L, Lin Z, et al. A smart composite coating incorporated with MXene/mesoporous silica nanocontainer for enhanced anti-friction/wear properties[J]. Surface and Coatings Technology, 2025, 496: 131719.

[6] Yan H, Shi L, Ling B, Lin Z et al. Dual-Stimuli Triggered Lubrication and Barrier: A Synergistic Strategy for High-Performance Tribocorrosion Protection in MXene-Based Epoxy Coatings[J]. ACS Applied Materials & Interfaces, 2025.

[7]张倍倍,龚海冰,胡力丹,张林等.茶多酚改性碳纤维在丁腈橡胶抗老化及溶胀中的应用[J/OL].中国表面工程:1-14[2025-11-24].

2024之前：

[1] Lin Zhang, Duoli Chen, Zhenbing Cai, et al. Preparation and damping properties of an organic-inorganic hybrid material based on nitrile rubber.[J] Composites, Part B. Engineering.2018, 137: 217-224.

[2] Lin Zhang, Duoli Chen, Zhenbing Cai, et al. Effect of Hindered Phenol Crystallization on Properties of Organic Hybrid Damping Materials.[J] Materials,2019， 12:224-233.

[3] Lin Zhang, Duoli Chen, Zhenbing Cai, et al.  Study on the damping properties of nitrile-butadiene rubber reinforced by graphene derivative.[J] Journal of Polymer Materials-An International Journal, 2016, 52:716-725.

[4] Lin Zhang, Duoli Chen, Zhenbing Cai, et al.  Thermal antioxidation behavior of a new hindered phenol with branched structure for nitrile rubber. [J] International Journal of Modern Physics B,2019, 33:581-587

[5] Xun Wang, Duoli Chen, Wensheng Zhong, Lin Zhang*, Experimental and theoretical evaluations of the interfacial interaction between carbon nanotubes and carboxylated butadiene nitrile rubber: Mechanical and damping properties[J] MATERIALS & DESIGN,2019, 186:108318

[6] Han Yan , Lin Zhang , Li H , et al. Towards high-performance additive of Ti3C2/graphene hybrid with a novel wrapping structure in epoxy coating. [J] Carbon. 2019, 157:123-134

[7] Duoli Chen , Gan Chao , Lin Zhang , et al. Improving the Dynamic Mechanical Properties of XNBR Using ILs/KH550-Functionalized Multilayer Graphene[J]. Materials, 2019, 12(17):2800.

[8] Chao He , Lin Zhang , Duoli C , et al. Modification of Talc@TiO2 toward high-performance nitrile rubber application[J]. RSC Advances, 2018,8: 17300-17311

[9] Han Yan ,Hao Li , Lin Zhang , et al. Probing the Damping Property of Three imensional Graphene Aerogels in Carboxylated Nitrile Butadiene Rubber/Polyurethane Blend[J]. Polymer Engineering and science, 2020, 60(1):61-70.

[10] Zhang L ,  Zhou J ,  Yang J , et al. Study of the Synergistic Effect of Hydrogen Bonding and Nano-Si3N4 in XNBR Matrix[J]. Journal of Inorganic and Organometallic Polymers and Materials, 2021, 31(7):2859-2867.

[11] Zhou J, Zhang L,.  Impact Fretting Wear of MoS2/C Nanocomposite Coating with Different Carbon Contents under Cycling Low Kinetic Energy[J]Nanomaterials,2021,11: 2205

[12] Zhang L ,  Zhou J ,  Yang H , et al. Effect of modulation of interfacial properties on the tribological properties of viscoelastic epoxy resin damping coatings[J]. Polymer Testing, 2021(4):107229.

[13] He, Dongmei; Cai, Meng; Yan, Han; Lin, Qilan; Fan, Xiaoqiang; Zhang, Lin; Zhu, Minhao. Tribological properties of Ti3C2Tx MXene reinforced interpenetrating polymers network coating[J]. TRIBOLOGY INTERNATIONAL, 2021 ,163

[14] Zhou J.B Zhang L. et al. Preparation of phase change functional two-dimensional materials and the tribological properties[J] Polymer Testing,2023

[15] Leifeng Shi , Han Yan, Shan Zhao, Lin Zhang , Xiaoqiang Fan. A durable superhydrophobic composite coating towards superior anticorrosion/wear properties[J]Applied Surface Science,2024,655:159662

[16] 张林, 左孔成, 朱旻昊,等. 丁腈橡胶/受阻酚小分子/片状石墨共混物动态力学性能的研究[J]. 复合材料学报, 2014,2: 56-62

[17] 张林, 陈多礼, 贺超,等. 氧化石墨烯对丁腈橡胶-聚氨酯共混物动态力学性能的影响 [J]. 复合材料学报, 2017, 4:730-736.

[18]张林, 陈多礼, 贺超,等. 氧化石墨烯对阻尼丁腈橡胶抗老化性能的研究. [J] 材料工程, 2016, 5: 256-264.

[19]左孔成, 张林, 彭金方,等. 丁腈橡胶/受阻酚AO-2246/绢云母粉共混物的动态力学性能[J]. 高分子材料科学与工程, 2015,4:83-86.

[20] 左孔成, 张林, 彭金方,等. 填料形态对丁腈橡胶杂化阻尼复合材料动态力学性能影响. 功能材料, 2014,5:5065-5069.

[21] 左孔成, 张林, 彭金方,等. 丁腈橡胶/有机小分子共混物阻尼材料热稳定性研究. 功能材料, 2013,24:3550-3553.

[22] 宋川, 刘建华, 张林,等. 接触应力对车轴钢旋转弯曲微动疲劳寿命的影响. 材料工程, 2014(2):34-38.

[23] 樊云杰, 张雄飞, 张林,等. PTFE基耐磨涂层往复滑动摩擦学性能研究. 润滑与密封, 2016, 41(4):101-105.

[24] 张林,周俊波,樊小强,等.有机杂化阻尼材料研究进展[J].高分子通报,2021,(11):6-10

[25] 张林，严涵等.机械化学稳定性超疏水涂层的构筑及其防护性能研究[J]材料保护，2023