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教育经历
2008.09-2012.06 东北大学,材料科学与工程,学士
2012.09-2018.06 中国科学院金属研究所,材料物理与化学,博士 -
工作经历
2018.11-2020.12 北京科技大学,国家材料服役安全科学中心,师资博士后
2021.01-2023.06 北京科技大学,国家材料服役安全科学中心,助理研究员
2023.07-今 北京科技大学,国家材料服役安全科学中心,副研究员 -
主要研究方向
1. 非晶合金疲劳性能与损伤机制
2. 高熵合金强韧化与疲劳行为
3. 工程金属材料疲劳性能评价
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代表性论文
1. Wang, X. D., Bai, W. L., Zhang, Z., Wang, Z. B., Ren, X. C., Enhanced fatigue resistance of a face-centered-cubic single-phase Al0.3CoCrFeNi high-entropy alloy through planar deformation characteristic. Mater. Sci. Eng. A, 862 (2023) 144499;
2. Wang, X. D., Song, S. L., Zhu, Z. W., Zhang, H. F., Ren, X. C.,Modulating fatigue property of in situ Ti-based metallic glass composites by changing dendrite composition. Fatigue Fract. Eng. Mater. Struct., 45 (2022) 2010-2022;
3. Wang, X. D., Song, S. L., Zhu, Z. W., Zhang, H. F., Ren, X. C.,Structural evolution under elastic cyclic loading in a Ti-based metallic glass. J. Non-Cryst. Solids, 577 (2022) 121263;
4. Wang, X. D., Zhang, Z., Wang, Z. B., Ren, X. C., Excellent tensile property and its mechanism in Al0.3CoCrFeNi high-entropy alloy via thermo-mechanical treatment. J. Alloys Compd., 897 (2022) 163218;
5. Wang, X. D., Zhang, Z., Wang, Z. B., Ren, X. C., Microstructural Evolution and Tensile Properties of Al0.3CoCrFeNi High-Entropy Alloy Associated with B2 Precipitates. Materials, 15 (2022) 1215;
6. Wang, X. D., Song, S. L., Zhu, Z. W., Zhang, H. F., Ren, X. C., Fatigue behavior of a Ti-based metallic glass: Effect of sampling location in association with free volume. J. Alloys Compd., 861 (2021) 158432;
7. Wang, X. D., Liu, P., Zhu, Z. W., Zhang, H. F., Ren, X. C., High fatigue endurance limit of a metastable Ti-based metallic glass composite with martensitic transformation. Intermetallics, 136 (2021) 107253;
8. Wang, X. D., Chen, L. Q., Liu, P., Lin, G. B., Ren, X. C., Enhancement of fatigue endurance limit through ultrasonic surface rolling processing in EA4T axle steel. Metals, 10 (2020) 830;
9. Wang, X. D., Liu, P., Zhu, Z. W., Zhang, H. F., Ren, X. C., High fatigue endurance limit of a Ti-based metallic glass. Intermetallics, 119 (2020) 106716;
10. Wang, X. D., Song, S. L., Liu, P., Zhu, Z. W., Zhang, H. F., Ren, X. C., Shear band deformation and fatigue striations during three-point bending fatigue crack growth in brittle metallic glass. J. Non-Cryst. Solids, 536 (2020) 119988;
11. Wang, X. D., Ren, X. C., Qu, R. T., Zhang, Z. F., Compression-compression fatigue behavior of a Zr-based metallic glass with different free volume contents. J. Alloys Compd., 810 (2019) 151924;
12. Wang, X. D., Qu, R. T., Wu, S. J., Liu, Z. Q., Zhang, Z. F., Fatigue damage and fracture behavior of metallic glass under cyclic compression. Mater. Sci. Eng. A, 717 (2018) 41-47;
13. Wang, X. D., Qu, R. T., Liu, Z. Q., Zhang, Z. F., Evolution of shear-band cracking in metallic glass under cyclic compression. Mater. Sci. Eng. A, 696 (2017) 267-272;
14. Wang, X. D., Qu, R. T., Liu, Z. Q., Zhang, Z. F., Shear band propagation and plastic softening of metallic glass under cyclic compression. J. Alloys Compd., 695 (2017) 2016-2022;
15. Wang, X. D., Qu, R. T., Wu, S. J., Duan, Q. Q., Liu, Z. Q., Zhu, Z. W., Zhang, H. F., Zhang, Z. F., Notch fatigue behavior: Metallic glass versus ultra-high strength steel. Sci. Rep., 6 (2016) 35557;
16. Wang, X. D., Qu, R. T., Liu, Z. Q., Zhang, Z. F., Shear band-mediated fatigue cracking mechanism of metallic glass at high stress level. Mater. Sci. Eng. A, 627 (2015) 336-339.
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主要科研项目
1. 2022年,国家自然科学基金(青年基金项目),非晶合金疲劳过程中剪切带演化规律及微观机制研究,项目负责人
2. 2022年,北京市自然科学基金(面上项目),循环加载对非晶合金结构回春/弛豫的影响及微观机理,项目负责人
3. 2019年,中国博士后科学基金(面上资助),提高Zr基非晶合金疲劳性能的新方法及其微观机制研究,项目负责人
4. 2019年,中央高校基本科研业务费,Ti基非晶合金复合材料疲劳机制及疲劳性能研究,项目负责人
5. 2023年,中央高校基本科研业务费,扑翼飞行机器人关键部件及系统寿命与可靠性研究,项目负责人
6. 2019年,国家自然科学基金(重点项目),增材制造合金材料疲劳与断裂行为的宏、微观尺寸效应,项目参与人
7. 2020年,企业横向课题,梁结构高周疲劳寿命测试,项目负责人
8. 2021年,企业横向课题,碳纤维复合材料箱型梁静力及疲劳测试,项目负责人
9. 2021年,企业横向课题,3D打印多孔材料压缩性能评价,项目负责人
10. 2021年,企业横向课题,焊接件疲劳性能与断裂韧性评价研究,项目负责人
11. 2022年,企业横向课题,热塑性树脂预埋叶根部件静力及疲劳测试与评价,项目负责人 -
指导学生情况
协助指导博士研究生2名,硕士研究生4名(三名已经毕业)