1.中国博士后科学基金面上项目，2025.07-2027.07，主持。

2.国家资助博士后研究人员计划B档，2025.07-2027.07，主持。

3.国家自然科学基金面上项目，2022.01-2025.12，参与。

本人在Additive Manufacturing、International Journal of Machine Tools and Manufacture、Corrosion Science、Materials Science and Engineering: A 等材料与机械类顶刊发表SCI论文30余篇，以下是典型论文成果：

①    Zhao Wang, et al. Tailoring laserdirected energy deposited Ti6Al4V titanium alloy for superior and isotropicmechanical properties by interlayer pause—intertrack pause cooling strategy. AdditiveManufacturing, 2025,97:104595. (中科院SCI一区Top期刊，第一作者，IF=11.1).

②    Zhao Wang, et al. Improvementmechanism in stress corrosion resistance of the X70 pipeline steel in hydrogensulfide solution by massive laser shock peening treatment. Corrosion Science, 201, 110293. 2022.03.03. (中科院SCI一区Top期刊，第一作者，IF=8.5).

③    Zhao Wang, et al. The role ofannealing heat treatment in high-temperature oxidation resistance of laserpowder bed fused Ti6Al4V alloy subjected to massive laser shock peeningtreatment. Corrosion Science, 209,110732. 2022.10.12. (中科院SCI一区Top期刊，第一作者，IF=8.5).

④    Zhao Wang, et al. Significantimprovement in the strength-toughness and isotropy of laser powder bed fusedTi6Al4V alloy by combining heat treatment with subsequent laser shock peening. Materials Science and Engineering: A,880, 145365. 2023.06.24. (中科院SCI一区Top期刊，第一作者，IF=7.0).

⑤    Zhao Wang, et al. Parameteroptimization and anisotropy mechanism in different build directions of themicrostructures and mechanical properties for laser directed energy depositedTi6Al4V alloy. Materials Science andEngineering: A, 911, 146906. 2024.0630 (中科院SCI一区Top期刊，第一作者，IF=7.0).

⑥    Zhao Wang, et al. Strengtheningmechanism in thermomechanical fatigue properties of Ti6Al4V titanium alloy bylaser shock peening. InternationalJournal of Fatigue, 172, 107631. 2023.03.17. (中科院SCI一区Top期刊，第一作者，IF=6.8).

⑦    HaifeiLu, Zhao Wang, et al. Effects oflaser shock peening on the hot corrosion behaviour of the selective lasermelted Ti6Al4V titanium alloy. CorrosionScience, 188, 109551. 2022.05.19. (中科院SCI一区Top期刊，共同第一作者，IF=8.5).

⑧    HairongBian, Zhao Wang, et al. Laser shockwave-induced enhanced thermal corrosion resistance of Ti6Al4V alloy fabricatedby laser powder bed fusion, Surface andCoatings Technology, 452, 129096. 2022.11.23 (中科院SCI一区Top期刊，共同第一作者，IF=6.1).

⑨    GanLu, Zhao Wang, et al. Tailoring themicrostructure and mechanical properties of laser directed energy depositedInconel 718 alloy via thermostatic substrate heating. Materials Science andEngineering: A. 910, 146868. 2024.06.22 (中科院SCI一区Top期刊，共同第一作者，IF=7.0).

⑩    JixuanZhu, Zhao Wang, et al. Significantimprovement in hot corrosion resistance of Inconel 690 by laser shock peening. Surfaceand Coatings Technology. 492, 131202. 2024.08.05 (中科院SCI一区Top期刊，共同第一作者，IF=6.1).

⑪   WeiweiDeng, Changyu Wang, Haifei Lu, Xiankai Meng, Zhao Wang et al. Progressive developments, challenges and futuretrends in laser shock peening of metallic materials and alloys: A comprehensivereview, International Journal of MachineTools and Manufacture, 191, 104061. 2023.08.04. (中科院SCI一区Top期刊，综述文章，IF=18.8).

⑫   FeifeiJi, Zhao Wang, et al. Strain ratedependence of tensile properties and strengthening mechanism of Ti6Al4V alloyundergoing different coverage layers of laser shock peening. Surface and Coatings Technology, 447,128807. 2022.08.24 (中科院SCI一区Top期刊，第二作者，IF=6.1).

⑬   FubingLin, Zhao Wang, et al. The effect ofY2O3 nanoparticle addition on the microstructure andhigh-temperature corrosion resistance of IN718 deposited by extreme high-speedlaser cladding. Surface and CoatingsTechnology, 476, 130235. 2023.11.24 (中科院SCI一区Top期刊，第二作者，IF=6.1).

⑭   ShenglinTian, Zhanfeng Wang, Zhao Wang, etal. The mechanism of anisotropic micro-milling properties in additivelymanufactured Ti-6Al-4V alloy, Journal ofMaterials Processing Technology, 322, 118190, 2023.10.10. (中科院SCI二区Top期刊，第三作者，IF=7.5).

⑮   JunfengSun, Haifei Lu, Zhao Wang, et al.High-temperature oxidation behaviour of Ti65 titanium alloy fabricated by laserdirect energy deposition, CorrosionScience, 188, 111866. 2024.01.23 (中科院SCI一区Top期刊，第三作者，IF=8.5).