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材料工程  2016, Vol. 44 Issue (7): 93-98    DOI: 10.11868/j.issn.1001-4381.2016.07.016
  测试与表征 本期目录 | 过刊浏览 | 高级检索 |
粒子浓度对C/C复合材料烧蚀行为的影响
查柏林, 林浩, 高双林, 罗雷, 张博文, 朱杰堂, 孙振生
第二炮兵工程大学, 西安 710025
Effect of Particle Concentration on Ablation Behavior of Carbon/Carbon Composites
ZHA Bai-lin, LIN Hao, GAO Shuang-lin, LUO Lei, ZHANG Bo-wen, ZHU Jie-tang, SUN Zhen-sheng
The Second Artillery Engineering University, Xi'an 710025, China
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摘要 为研究不同粒子浓度侵蚀条件下C/C复合材料的烧蚀机理及性能,采用自主研发的氧-煤油烧蚀实验系统对轴棒法编织的C/C复合材料进行烧蚀/侵蚀实验,实验的粒子浓度分别为0,1.37%,2.22%,2.64%。采用扫描电镜(SEM)观察实验后试样的微观形貌,测算了试样的烧蚀率,研究了粒子浓度对材料烧蚀率的影响规律,分析了材料的烧蚀机理。结果表明:不加粒子时试样的质量烧蚀率仅为0.159g/s,线烧蚀率为0.175mm/s,加入粒子后质量烧蚀率与线烧蚀率的最小值分别为0.432g/s和0.843mm/s,且随粒子浓度的增加,烧蚀率均加速增加。粒子的侵蚀作用加剧了试样的烧蚀,冲刷面上径向纤维的烧蚀梯度随粒子浓度的增加而增大。
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查柏林
林浩
高双林
罗雷
张博文
朱杰堂
孙振生
关键词 粒子浓度C/C复合材料质量烧蚀率线烧蚀率    
Abstract:A self-designed oxygen-kerosene ablation system was employed to study the ablation mechanism and performance of the carbon-carbon composites. Particle concentrations of the gas-solid two-phase ablation flow were 0, 1.37%, 2.22%, and 2.64% respectively. The microstructure of post-test samples was analysed through the scanning electron microscope (SEM), and the ablation rate was calculated. The influence principle of particle concentrations on the ablation rate of the carbon-carbon composites was studied, and the mechanism of ablation was analysed. Experiment results show that with no particles involved the mass ablation rate is 0.159g/s and the linear ablation rate is 0.175mm/s, while with particles introduced, the minimum mass ablation rate and linear ablation rate are 0.432g/s and 0.843mm/s respectively, with the increase of particle concentrations, the ablation rate becomes accelerated. Particle erosion makes the ablation of sample seriously intensified, and the ablation gradient of radial fiber on erosion surface is increased with the increase of particle concentrations as well.
Key wordsparticle concentration    carbon-carbon composite    mass ablation rate    linear ablation rate
收稿日期: 2015-01-13      出版日期: 2016-07-19
1:  V258  
通讯作者: 査柏林(1974-),男,教授,博士,主要研究火箭发动机,联系地址:陕西西安灞桥区洪庆镇同心路2号第二炮兵工程大学(710025),E-mail:zhabailin@163.com     E-mail: zhabailin@163.com
引用本文:   
查柏林, 林浩, 高双林, 罗雷, 张博文, 朱杰堂, 孙振生. 粒子浓度对C/C复合材料烧蚀行为的影响[J]. 材料工程, 2016, 44(7): 93-98.
ZHA Bai-lin, LIN Hao, GAO Shuang-lin, LUO Lei, ZHANG Bo-wen, ZHU Jie-tang, SUN Zhen-sheng. Effect of Particle Concentration on Ablation Behavior of Carbon/Carbon Composites. Journal of Materials Engineering, 2016, 44(7): 93-98.
链接本文:  
http://jme.biam.ac.cn/CN/10.11868/j.issn.1001-4381.2016.07.016      或      http://jme.biam.ac.cn/CN/Y2016/V44/I7/93
[1] 张红波,尹健,熊翔.C/C复合材料烧蚀性能的研究进展[J].材料导报,2005,19(7):97-103. ZHANG H B,YIN J,XIONG X.Research and development of the ablation performance of C/C composites[J].Materials Review,2005,19(7):97-103.
[2] 王磊,何国强,李江,等.颗粒冲刷对C/C材料烧蚀影响的实验研究[J].推进技术,2013,34(2):213-218. WANG L,HE G Q,LI J,et al.Experimental investigation on C/C material ablation by particle erosion[J].Journal of Propulsion Technology,2013,34(2):213-218.
[3] 许承海,孟松鹤,白光辉,等.多向编织炭/炭复合材料烧蚀/侵蚀特性研究[J].固体火箭技术,2011,34(6):772-776. XU C H,MENG S H,BAI G H,et al.Investigation on ablation/erosion of 5D carbon/carbon composites[J].Journal of Propulsion Technology,2011,34(6):772-776.
[4] 王洋,梁军,杜善义.碳基材料超高速粒子侵蚀的数值模拟[J].复合材料学报,2006,23(3):130-134. WANG Y,LIANG J,DU S Y.Numerical simulation of erosion for carbon-based composites impacted by hypervelocity particles[J].Acta Materiae Compositae Sinica,2006,23(3):130-134.
[5] 陈莎,李江,刘洋,等.高浓度粒子冲刷下多向编织C/C材料烧蚀研究[J].固体火箭技术,2013,36(4):555-558. CHEN S,LI J,LIU Y,et al.Research on erosion of multi-directional C/C material by high concentration particles[J]. Journal of Solid Rocket Technology,2013,36(4):555-558.
[6] HELBER B,CHAZOT O,MAGIN T,et al.Ablation of carbon preform in the VKI plasmatron[C]//New Orleans:43rd AIAA Thermophysics Conference, 2012:1-13.
[7] HELBER B,CHAZOT O,MAGIN T,et al.Space and time-resolved emission spectroscopy of carbon phenolic ablation in air and nitrogen plasmas[C]//San Diego:44th AIAA Thermophysics Conference, 2013:1-14.
[8] FARHAN S,LI K Z,GUO L J,et al.Effect of density and fibre orientation on the behaviour of carbon-carbon composites[J].New Carbon Materials,2012,25(3):161-166.
[9] VIGNOLES G L, LACHAUD J, ASPA Y,et al.Ablation of carbon-based materials:Multiscale roughness modeling[J].Composites Science and Technology,2009,69(9):1470-1477.
[10] GOSSE R, ALYANAK E.Micro-mechanical ablation of carbon/carbon materials[C]//Orlando:47th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, 2009:1-16.
[11] 查柏林,黄定园,乔素磊,等.C/C复合材料烧蚀实验及烧蚀机理研究[J].固体火箭技术,2013,36(5):692-696. ZHA B L,HUANG D Y,QIAO S L,et al.Research on ablation test and ablative mechanism of carbon/carbon composite material[J].Journal of Solid Rocket Technology,2013,36(5):692-696.
[12] 丘哲明.固体火箭发动机材料与工艺[M].北京:中国宇航出版社,1995.
[13] 查柏林,江鹏,袁晓静.多功能超音速火焰喷涂粒子速率的计算机仿真[J].材料保护,2011,44(6):5-7. ZHA B L,JIANG P,YUAN X J.Computed simulation of particle velocity of multifunctional high velocity oxy-fuel spraying[J].Materials Protection,2011, 44(6):5-7.
[14] 黄定园.C/C复合材料的烧蚀行为及性能研究[D].西安:第二炮兵工程大学,2013. HUANG D Y. Research on ablation behavior and properties of C/C composites[D]. Xi'an:The Second Artillery Engineering University, 2013.
[15] 王磊,何国强,李江,等.粒子侵蚀对C/C材料烧蚀性能影响研究[J].西北工业大学学报,2012,30(3):320-325. WANG L,HE G Q,LI J,et al.Exploring effect of particles on ablation performance of C/C material[J].Journal of Northwestern Polytechnical University,2012,30(3):320-325.
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