【个人简历】
张永胜,男,博士,研究员、博士生导师,全国先进工作者。国家科技创新领军人才、卓越青年科学基金获得者、甘肃省拔尖领军人才、中国科学院“青年创新促进会”优秀会员、中国科学院特聘核心岗位研究员。2001年毕业于甘肃工业大学金属材料与热处理专业获工学学士学位,2008年于中国科学院研究生院获物理化学理学博士学位,2013年至2014年在美国西北大学从事合作研究。先后荣获甘肃省技术发明奖一等奖(第一完成人)、甘肃省专利奖一等奖(第一完成人)、“西部之光”人才培养计划优秀入选者、甘肃省优秀专家、兰州“最美科技工作者”等奖励。主持20余项国家重大重点科研项目,在极端耦合工况摩擦磨损、润滑与密封等方面做出了系统性创新性工作,带领团队攻克了极端环境服役润滑材料温度自适应智能调控、多尺度结构设计与制备、磨损与密封寿命评价等关键核心技术,发明的系列润滑与密封材料技术在航空航天等领域获得成功应用,有力支撑了相关装备的迭代升级和关键技术自主可控;成功研制我国首台超高温水氧环境材料摩擦磨损测试设备、航空发动机动密封系统摩擦磨损模拟平台、滚动表面损伤摩擦磨损试验机等评价装备,有效加速了新材料研发应用进程,实现了润滑材料研发从基础研究-技术攻关-产品研制-性能评价-工程应用的全链条贯通。制定国家标准6项、团体标准4项,在Advanced Materials, Materials Today, Advanced Science, Acta Materialia, Journal of Advanced Ceramics, Wear, Tribology International等高水平学术期刊发表论文150余篇,申请(授权)国际和国家发明专利50余件,登记软件著作权2件,获新产品备案2项。兼任多个领域专家组成员、中国硅酸盐学会测试技术分会副理事长、甘肃省材料学会副理事长兼秘书长、甘肃省新材料标准化技术委员会秘书长等职,Journal of Advanced Ceramics、摩擦学学报等期刊编委。担任甘肃省科普专家,组织国际国内学术会议30余次,受邀在国际国内重要学术会议作大会报告和特邀报告20余次。
【研究领域】
主要从事新材料创制及其摩擦磨损、润滑与密封等研究工作,包括:(1)极端环境条件前沿新材料创制;(2)新型润滑耐磨与动密封材料的制备与应用;(3)材料智能主动设计新方法与结构/功能一体化调控原理;(4)复杂形状零部件成型与异质材料连接技术;(5)极端环境下材料评价技术与寿命预测理论。
【联系方式】
电话:0931–4968026;传真:0931–4968019;E-mail:zhysh@licp.cas.cn
【近5年代表性论文】
1. Xiaoke Jiang, Tao Du, Hengzhong Fan, Junhong Liu, Yunfeng Su, Peng He, Hongxiang Chen, Litian Hu, Yongsheng Zhang, Qiangqiang Zhang, Superelastic High-Entropy Oxide Ceramic Aerogels for Thermal Superinsulation and Sealing at Extreme Conditions, Advanced Science, 2025, e16840.https://doi.org/10.1002/advs.202516840
2. Hongbin Li, Hengzhong Fan, Yunfeng Su, Zhenhua Li, Shuna Chen, Wanxin Wei, Faqiang Chen, Xiande Zheng, Junjie Song, Tianchang Hu, Yongsheng Zhang, Zhiwen Jin, Litian Hu, Weimin Liu, Quaternary Layered Boride Ti4MoSiB2: A Structure-Function Integrated High-Temperature Self-Lubricating and Negative-Wear Material, Advanced Materials, 2025, 37(30), 2418995. https://doi.org/10.1002/adma.202418995
3. Shuna Chen, Hengzhong Fan, Yunfeng Su, Junjie Song, Changning Bai, Qiangqiang Zhang, Ming Hu, Yongsheng Zhang, Litian Hu, Weimin Liu, Tough and damage-tolerant composite ceramics enabled by bioinspired multiple architectures, Materials Today, 2025, 90, 169. https://doi.org/10.1016/j.mattod.2025.09.002
4. Jicheng Li, Yunfeng Su, Shuna Chen, Hengzhong Fan, Xiande Zheng, Qiuan Sun, Junjie Song, Litian Hu, Yongsheng Zhang, High-entropydiboride: A novel high-temperature self-lubricating ceramic with enhanced mechanical and tribological properties, Journal of Advanced Ceramics, 2025, 14(6), 9221085. https://doi.org/10.26599/JAC.2025.9221085
5. Qiuan Sun, Junjie Song, Jicheng Li, Pengyu Lin, Yaojun Dong, Yunfeng Su, Hengzhong Fan, Litian Hu, Yongsheng Zhang, Litian Hu. Tribological behavior of h-BN/Al2O3 self-lubricating composites in extreme environments–Part I: Lubricating behavior and ultra-low friction coefficient mechanism in air environments from room temperature to 1200 ℃, Tribology International, 2025, 201, 110251. https://doi.org/10.1016/j.triboint.2024.110251
6. Qiuan Sun, Yaojun Dong, Junjie Song, Tao Li, Xin You, Yunfeng Su, Hengzhong Fan, Litian Hu, Yongsheng Zhang. Tribological behavior of h-BN/Al2O3 self-lubricating composites in extreme environment—Part II: Self-lubrication and mechanism in water-oxygen environment from 300 ℃ to 1200 ℃, Tribology International, 2025, 201, 110269. https://doi.org/10.1016/j.triboint.2024.110269
7. Huifeng Ning, Faqiang Chen, Yunfeng Su, Hongbin Li, Hengzhong Fan, Junjie Song, Yongsheng Zhang, Litian Hu. Modeling and prediction of tribological properties of copper/ aluminum-graphite self-lubricating composites using machine learning algorithms, Friction, 2024, 12(6), 1322. https://doi.org/10.1007/s40544-023-0847-2
8. Jicheng Li, Yanchun Zhou, Yunfeng Su, Shuna Chen, Qiuan Sun, Hengzhong Fan, Junjie Song, Litian Hu, Yongsheng Zhang. Synthesis and mechanical and elevated temperature tribological properties of a novel high-entropy (TiVNbMoW)C4.375 with carbon stoichiometry deviation, Journal of Advanced Ceramics, 2023, 14(6), 9221085. https://doi.org/10.26599/JAC.2023.9220679
9. Shuna Chen, Hengzhong Fan, Yunfeng Su, Jicheng Li, Junjie Song, Litian Hu, Yongsheng Zhang. Bioinspired PcBN/hBN fibrous monolithic ceramic: High-temperature crack resistance responses and self-lubricating performances, Journal of Advanced Ceramics, 2022, 11(9), 1391. https://doi.org/10.1007/s40145-022-0618-y
10. Shuna Chen, Hengzhong Fan, Yunfeng Su, Wensheng Li, Jicheng Li, Bing Yan, Junjie Song, Litian Hu, Yongsheng Zhang. Influence of binder systems on sintering characteristics, microstructures, and mechanical properties of PcBN composites fabricated by SPS, Journal of Advanced Ceramics, 2022, 11(2), 321. https://doi.org/10.1007/s40145-021-0536-4
