教学科研成果
获奖情况:
(1)2024年11月:报告:高温/超高温原位“紫外成像”DIC技术及应用进展,荣获航空发动机及燃气轮机基础科学前沿论坛“优秀口头报告”;
(2)2024年12月:北航学院“荣誉导师”称号;
(4)2022年9月:指导的硕士生罗雅煊荣获“国家奖学金”,2022年度“优秀研究生”,研二学年一等学业奖学金等;
(5)2022年7月:2021-2022学年北航学院“优秀导师”称号;
(7)2018年2月:2017年度永利官网“优秀博士后”称号。
发明专利:
(1)董亚丽,李宜彬,康鹏,徐惠彬。一种热膨胀系数高通量测试方法及装置。浙江省: CN202410292715.2, 2024-06-18,实审。
(2)董亚丽,刘禺,倪鹏成,顾轶卓,马朝利。 一种高温多尺度散斑自动点涂装置及点涂方法。北京市:CN202211117705.2, 2023-10-13,授权。
(3)董亚丽,罗雅煊,顾轶卓,马朝利。一种室温-3000℃高温DIC散斑制备方法。北京市: CN202211609524.1, 2023-08-11,授权。
(4)董亚丽,尚勇,顾轶卓,马朝利,宫声凯。一种基于紫外成像的超高温应变场-温度场同步测量系统及测量方法。北京市:CN202010615114.2, 2020-10-27,实审。
(5)董亚丽,潘兵。一种基于紫外成像DIC的超高温多尺度多功能应变测量系统及测量方法. 北京市: CN201710567402.3, 2019-03-19,授权。
(6)董亚丽,路修远。一种基于灰度加权平均的图像热雾祛除方法。北京市:202411075312.9,实审。
(7)董亚丽,杨发清,顾轶卓,李宜彬。一种预浸料模量测试装置及方法。北京市。202411219955.6,实审。
代表性论文:
[1] Y.X. Luo, Y.L.Dong*. Strain measurement at up to 3000 °C based on ultraviolet digital image correlation. Nondestructive Testing and Evaluation International 2024;146:103155.(《科技日报》报道论文,报道链接https://digitalpaper.stdaily.com/http_www.kjrb.com/kjrb/html/2024-07/10/content_574517.htm?div=-1)
[2] Y.X.Luo, Y.L.Dong*, F.Q.Yang, X.Y. Lu. Ultraviolet single-camera stereo-digital image correlation for deformation measurement up to 2600°C. Experimental Mechanics 2024;64:1343-1355.
[3] Y.L. Dong*. High temperature deformation measurement using optical imaging digital image correlation:status,challenge and future. Chinese Journal of Aeronautics 2024, accepted.
[4] Y.L.Dong*, J.Q.Zhao, B. Pan. Ultraviolet 3D digital image correlation applied for deformation measurement in thermal testing with infrared quartz lamps. Chinese Journal of Aeronautics 2020;33(3):1085-1092.
[5] Y.L.Dong*, B. Pan. In-situ 3D shape and recession measurements of ablative materials in arc heated wind tunnel by UV stereo-digital image correlation. Optics and Lasers in Engineering 2019;116:75-81.
[6] Y.L.Dong*, B. Pan. A review of speckle pattern fabrication and assessment for digital image correlation. Experimental Mechanics 2017; 57(8):1161-81.(ESI高倍引论文,被引308次)
[7] Y.L.Dong*, H. Kakisawa and Y. Kagawa. Development of microscale pattern for digital image correlation up to 1400℃. Optics and Lasers in Engineering 2015;68:7-15.
[8] Y.L.Dong*, H. Kakisawa, Y. Kagawa. Optical system for microscopic observation and strain measurement at high temperature. Measurement Science and Technology 2014; 25:025002.
[9] Y.L.Dong*, H. Kakisawa, Y. Kagawa. Development of new observation system used for deformation measurement of ceramics matrix composites at high temperature. Design, Development, and Applications of Structural Ceramics, Composites, and Nanomaterials: Ceramic Transactions, 2014, 244:Proceeding of 10th Pacific Rim Conference on Ceramics and Glass Technology, American Ceramics Society, Proceeding. San Diego, CA, USA.
[10] Y. L. Dong*, F. M. Xu, X. L. Shi, C. Zhang, Z. J. Zhang, J. M. Yang, Y. Tan. Fabrication and mechanical properties of nano-/micro-sized Al2O3/SiC composites. Materials Science and Engineering A 2009;504:49-54.(IF:6.3, SCI被引100次)
[11] Y. L. Dong, X.L.Shi, Y.Tan, F. M. Xu, Z. J. Zhang, X. N. Li, L. Wang, Y. Tan. Mechanical properties of Al2O3-SiC-C composites using polycarbosilane as SiC precursor. Journal of Alloys and Compounds 2010;490(1-2):484-487.