宇航计测技术

• 论文 • 上一篇    下一篇

复合材料有效烧蚀焓计算模型实验研究

周燕萍1;魏莉萍1;郑会保1;刘运传1;孟祥艳1;王雪蓉1;李峙澂1   

  1. 1、山东非金属材料研究所,济南 250031
  • 出版日期:2012-04-15 发布日期:2012-04-15
  • 作者简介:周燕萍(1980-),女,工程师,主要研究方向:材料性能表征技术与研究。

Experimental Research of Calculate Model on the Effective Enthalpies of Ablation of Composite

ZHOU Yan-ping1;WEI Li-ping1;ZHENG Hui-bao1;LIU Yun-chuan1;MENG Xiang-yan1;WANG Xue-rong1;LI Shi-cheng1   

  1. 1、Shandong Non-metallic Materials Institute, Jinan 250031
  • Online:2012-04-15 Published:2012-04-15

PDF (PC)

481

摘要: 通过对CF/S-157PF复合材料进行氧-乙炔烧蚀试验研究,得到了烧蚀试验中的重要表征参数即有效烧蚀焓,并利用多元线性回归方法,拟合得到了该参数与热流密度和烧蚀时间的数学模型,即Heff=0.016 3·q0.871 5·t0.191 3。经检验,该回归模型适用性较好,预测准确度较高,为复合材料该项性能的评估建立了快速、有效、可靠的试验方法。

关键词: 复合材料, 燃烧, 焓, 多元回归, 数学模型

Abstract: The important characteristic parameter , namely the effective enthalpies of ablation, was obtained by the research on CF/S-157PF composite under oxyacetylene flame test conditions. And using multiple linear regression, the mathematic model between the effective enthalpies of ablation, the two major factors, namely the heat flux density and ablation time is as follows:Heff=0.016 3·q0.871 5·t0.191 3 . Being verified, the regression model is very applicable and the forecast accuracy is much better.So the erosion properties of CF/S-157PF composite can be evaluated rapidly, effectively and accurately in the oxyacetylene flame test.

Key words: Composite, Flame, Enthalpy, Multiple regression, Mathematic model

京ICP备09048426号-4  京公网安备 11010602060144号 版权所有 © 《宇航计测技术》编辑部