教學方面,協助魏大盛教授承擔學院和仿真系多門課程的建設和講授工作,獲得beat365英国官网网站第十七屆青年教師教學業務基礎班優秀學員(2024)、beat365英国官网网站教師教學基本功比賽優秀獎(2024)。
科研方面,研究方向為航空發動機關重部件結構強度可靠性和高溫熱防護結構可靠性。主持/參與魏大盛教授團隊國家重大專項課題兩項,主持國家自然科學基金面上項目、青年項目、實驗室項目、中國博士後科學基金面上項目及研究院所橫向研究項目十餘項。
獲得中國發明協會第二十八屆全國發明展覽會·“一帶一路”暨金磚國家技能發展與技術創新大賽金獎(2024)、中國發明協會“發明創業獎項目獎”二等獎(2024)。指導學生獲得“馮如杯”、“航空發動機大賽”等多項科創比賽獎勵。
迄今為止,以第一/通訊作者在International Journal of Solids and Structures、Journal of the Mechanics and Physics of Solids、International Journal of Fatigue和Chinese Journal of Aeronautics等知名期刊發表SCI論文論文二十餘篇,申請/授權國家專利和軟著十餘項。代表成果如下:
1.Effect of compressive residual stress and surface morphology introduced by shot peening on the improvement of fretting fatigue life of TC4 (2025).
2.Fretting fatigue in dovetail assembly and bridge-flat model: Verification of a life prediction model based on stress gradient (2025).
3.A stress fatigue life prediction model applicable to the whole life stage and complex stress states (2025).
4.Effect of compressive residual stress and surface morphology introduced by shot peening on the improvement of fretting fatigue life of TC4 (2025).
5.Fretting fatigue in dovetail assembly and bridge-flat model: Verification of a life prediction model based on stress gradient (2024).
6.Experimental and numerical investigations on fretting fatigue in a bridge-flat component using a stress life prediction model (2024).
7.An engineering applicable method for multiaxial fatigue under proportional and non-proportional loads based on the octahedral plane projection (2024).
8.Thermal oxidation description methodology of thermal barrier coatings on gas turbine blades considering service characteristics (2024).
9.A discussion of fatigue properties of notched specimens subjected to prestressing treatment machined from FGH4097 (2024).
10.Simulations of Effects of Geometric and Material Parameters on the Interfacial Stress of the Thermal Barrier Coatings with Free Edges (2023).
11.Multiaxial fatigue life assessment of 304 austenitic stainless steel with a novel energy-based criterion (2022).
12.Multiscale modeling of chemo-thermo-mechanical damage of EB-PVD thermal barrier coatings (2022).
