基于均匀化激光双面辐照的热力耦合测试方法研究

王家伟; 李斌; 张检民; 冯国斌; 刘卫平; 韦成华; 韩永超; 王娜; 王家伟; 李斌; 张检民; 冯国斌; 刘卫平; 韦成华; 韩永超; 王娜

doi:10.3788/IRLA20220329

[1]

Rosenstein A H. Overview of research on aerospace metallic structural materials [J]. Materials Science & Engineering A, 1991, 143(1-2): 31-41.

[2]

Schmidt D L, Davidson K E, Theibert L S. Unique applications of carbon-carbon composite materials [J]. Sampe Journal, 1999, 35(3): 27-39.

[3]

杜善义. 高温固体力学[M]. 科学出版社, 2021.

Du S. High Temperature Solid Mmechanics [M]. Beijing: Science Press, 2021. (in Chinese)

[4]

Gao Y, Shi Y, Wang K, et al. High-temperature mechanical properties of carbon fiber reinforced polyimide resin matrix composites MT300/KH420(I)-tensile and interlaminar shear properties [J]. Acta Materiae Compositae Sinica, 2016, 33(6): 1206-1213. (in Chinese)

[5]

东巳宙. 高温环境下复合材料层合板与蜂窝板力学性能分析[D]. 哈尔滨工业大学, 2013.

Dong S. The analysis of mechanical properties on composite laminated plate and honeycomb panel under the environment of high temperature[D]. Harbin: Harbin Institute of Technology, 2013. (in Chinese)

[6]

陈明. T300/AG80复合材料层合板力学性能的测试与分析[D]. 北京工业大学, 2010.

Chen M. Mechanical properties testing and analysis of T300/AG80 laminated plate[D]. Beijing: Beijing University of Technology, 2010. (in Chinese)

[7]

李明旭. 针刺碳/碳复合材料超高温拉伸力学性能试验研究[D]. 哈尔滨工业大学, 2021.

Li M. Experimental study on ultra-high temperature tensile mechanical properties of needle-punched C/C composites[D]. Harbin: Harbin Institute of Technolog, 2021. (in Chinese)

[8]

马艳艳. 感应加热高温力学试验装置的研制[D]. 大连理工大学, 2020.

Ma Y. Development of a high-temperature mechanical test apparatus using induction heating[D]. Dalian: Dalian University of Technology, 2020. (in Chinese)

[9]

隋信栋, 闵峻英, 张华, 等. 一种高温环境金属材料拉伸试验系统: 中国, CN111579384A[P]. 2020-08-25.

[10]

杨旭. 高温力学试验装置的研制及性能测试研究[D]. 大连理工大学, 2021.

Yang X. Development and performance testing of a high-temperature mechanical testing apparatus[D]. Dalian: Dalian University of Technology, 2021. (in Chinese)

[11]

Wu D, Pan B, Zheng L. Aerodynamic heating simulation method and testing technique for materials and structures of hypersonic flight vehicles [J]. Spacecraft Environment Engineering, 2012, 29(3): 250-258. (in Chinese) doi: 10.3969/j.issn.1673-1379.2012.03.003

[12]

欧东斌, 陈连中, 董永晖, 等. 抗氧化碳/碳复合材料受力条件下烧蚀试验[C]//中国力学大会, 2013.

Ou D, Chen L, Dong Y, et al. Ablative test of anti-oxidation carbon/carbon composites under stress[C]// Chinese Conference on Mechanics, 2013. (in Chinese)

[13]

宋宏伟, 黄晨光, 赵伟娜. 一种基于激光辐照加热的材料高温力学性能试验系统及方法: 中国, CN106053247A[P]. 2016-05-12.

[14]

张宇, 王彬文, 刘小川, 等. 一种基于激光辐照的材料可控高温试验装置与方法: 中国, CN110940570A[P]. 2020-03-31.

[15]

王家伟, 朱永祥, 韦成华, 等. 基于激光双面辐照加热的高温力学性能测试系统及方法: 中国, CN108195662A[P]. 2018-03-13.

[1]	Rosenstein A H. Overview of research on aerospace metallic structural materials [J]. Materials Science & Engineering A, 1991, 143(1-2): 31-41.
[2]	Schmidt D L, Davidson K E, Theibert L S. Unique applications of carbon-carbon composite materials [J]. Sampe Journal, 1999, 35(3): 27-39.
[3]	杜善义. 高温固体力学[M]. 科学出版社, 2021. Du S. High Temperature Solid Mmechanics [M]. Beijing: Science Press, 2021. (in Chinese)
[4]	Gao Y, Shi Y, Wang K, et al. High-temperature mechanical properties of carbon fiber reinforced polyimide resin matrix composites MT300/KH420(I)-tensile and interlaminar shear properties [J]. Acta Materiae Compositae Sinica, 2016, 33(6): 1206-1213. (in Chinese)
[5]	东巳宙. 高温环境下复合材料层合板与蜂窝板力学性能分析[D]. 哈尔滨工业大学, 2013. Dong S. The analysis of mechanical properties on composite laminated plate and honeycomb panel under the environment of high temperature[D]. Harbin: Harbin Institute of Technology, 2013. (in Chinese)
[6]	陈明. T300/AG80复合材料层合板力学性能的测试与分析[D]. 北京工业大学, 2010. Chen M. Mechanical properties testing and analysis of T300/AG80 laminated plate[D]. Beijing: Beijing University of Technology, 2010. (in Chinese)
[7]	李明旭. 针刺碳/碳复合材料超高温拉伸力学性能试验研究[D]. 哈尔滨工业大学, 2021. Li M. Experimental study on ultra-high temperature tensile mechanical properties of needle-punched C/C composites[D]. Harbin: Harbin Institute of Technolog, 2021. (in Chinese)
[8]	马艳艳. 感应加热高温力学试验装置的研制[D]. 大连理工大学, 2020. Ma Y. Development of a high-temperature mechanical test apparatus using induction heating[D]. Dalian: Dalian University of Technology, 2020. (in Chinese)
[9]	隋信栋, 闵峻英, 张华, 等. 一种高温环境金属材料拉伸试验系统: 中国, CN111579384A[P]. 2020-08-25.
[10]	杨旭. 高温力学试验装置的研制及性能测试研究[D]. 大连理工大学, 2021. Yang X. Development and performance testing of a high-temperature mechanical testing apparatus[D]. Dalian: Dalian University of Technology, 2021. (in Chinese)
[11]	Wu D, Pan B, Zheng L. Aerodynamic heating simulation method and testing technique for materials and structures of hypersonic flight vehicles [J]. Spacecraft Environment Engineering, 2012, 29(3): 250-258. (in Chinese) doi: 10.3969/j.issn.1673-1379.2012.03.003
[12]	欧东斌, 陈连中, 董永晖, 等. 抗氧化碳/碳复合材料受力条件下烧蚀试验[C]//中国力学大会, 2013. Ou D, Chen L, Dong Y, et al. Ablative test of anti-oxidation carbon/carbon composites under stress[C]// Chinese Conference on Mechanics, 2013. (in Chinese)
[13]	宋宏伟, 黄晨光, 赵伟娜. 一种基于激光辐照加热的材料高温力学性能试验系统及方法: 中国, CN106053247A[P]. 2016-05-12.
[14]	张宇, 王彬文, 刘小川, 等. 一种基于激光辐照的材料可控高温试验装置与方法: 中国, CN110940570A[P]. 2020-03-31.
[15]	王家伟, 朱永祥, 韦成华, 等. 基于激光双面辐照加热的高温力学性能测试系统及方法: 中国, CN108195662A[P]. 2018-03-13.