[1] 中国科学院先导专项B类“两机中关键金属材料高温高速磨损机制及控制”子课题 [2] 辽宁省航空推进系统测试技术重点实验室开放基金“新型石墨与高温合金表面耐磨涂层配副的可控磨损行为研究” [3] 清华大学摩擦学国家重点实验室开放基金“航发叶片尖端复合图形化涂层的高速摩擦学行为研究” [4] 国家部委项目“某对偶件耐磨涂层优化技术” [5] 国家部委项目“某一体化组件” [6] 中航沈飞工业集团科技创新项目“典型航空铝合金铆钉和钢制操纵索微动损伤研究”
航发材料极端工况下摩擦磨损界面演化行为研究 高鲁棒性纳米复合耐磨减摩涂层设计 飞行器关键零部件磨损失效分析 碳基智能热管理材料与器件研发
[1] Bi Wu; Siyang Gao; Weihai Xue; Shu Li; Deli Duan. Effect of microstructure on the adhesion strength of TiBx coating on Ti6Al4V substrate, Ceramics International, 2021, 47: 5019-5027. [2] Bi Wu; Siyang Gao; Ronglu Zhang; Weihai Xue; Shu Li; Deli Duan. Investigation of the Al-adhesive transfer mechanism on Ti6Al4V blade tips under high-speed rubbing in an aero-turbine engine, Engineering Failure Analysis, 2022, 142: 106692. [3] Bi Wu; Siyang Gao; Weihai Xue; Shu Li; Deli Duan. Anti-adhesion Mechanism of TiB2-Deposited Ti6Al4V Blade Tip Against Al-hBN Seal Coating During High-Speed Rubbing, Tribology Letters, 2023, 75(51). [4] Bi Wu, Siyang Gao, Weihai Xue; Shuai Yang; Shu Li, Deli Duan. Designing TiB2/Cr multilayer coatings on Ti6Al4V substrate for optimized wear resistance, Surface Science and Technology, 2024, 2(1): 1-18 . [5] Shen, J., Wu, B*., Wang, P., Zhao, H., Duan, D.. Tribological compatibility of cost-effective TiAlVN coatings deposited using Ti6Al4V alloy targets. Surface Science and Technology, 2025, 3(1), 38. [6] Song, T., Liu, C., Yu, Y., Kang, K., Meng, F., Wu, B.*, Duan, D.. Fretting-induced leakage of hydraulic pipe joints in civil aircraft: failure analysis and suppression by coatings. Engineering Failure Analysis, 2025,110308. [7] Meng F, Wu B*, Yang X, et al. Yttrium tungstate/graphene nanosheets/silicone rubber ternary nanocomposites with intensified positive temperature coefficient effect applied to self-limiting heaters[J]. Composites Part A: Applied Science and Manufacturing, 2025, 198: 109134. [8] Shen J, Wu B*, Ding W, et al. Grain-boundary–driven tribochemistry for enhanced wear resistance in Cu–C nanocomposite coatings[J]. Tribology International, 2026: 111834. [9] 吴彼, 高禩洋;薛伟海;李曙;段德莉. 钛合金表面TiB2涂层与纯铝的高温黏着磨损行为.中国表面工程 35.3 (2022): 64-72. [10] 吴彼; 张振波; 李曙.航空发动机材料摩擦学研究进展,摩擦学学报, 2023, 43(10): 1099-1117. [11] 吴彼; 高禩洋;薛伟海;李曙;段德莉.滑动速度对钛合金表面TiB2涂层高温抗铝黏着磨损行为的影响[J]..表面技术,2025(07).
“Surface Science and Technology”2025年度“优秀代表作” ; 《摩擦学学报》2023-2024年度优秀论文; 2024年“全国青年表面工程大会” 优秀口头报告。
材料学┋材料加工工程
协助指导硕士生申俊峰中期答辩优秀
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