分别测量了经不同次数单向真空热循环试验(93~413 K,10-5Pa)后M40J/5228A复合材料的拉伸强度、弯曲强度和层剪强度,研究了真空热循环对M40J/环氧复合材料力学性能的影响.结果表明,随着真空热循环次数的增加,90°和0°拉伸强度下降,并分别于48次和40次真空热循环后趋于平缓.弯曲强度随着真空热循环次数的增加表现出先上升后下降再趋于平缓的特征,而层剪强度变化不大.90°和0°拉伸强度的变化与界面脱粘程度密切相关.弯曲强度变化主要反映真空热循环时树脂基体后续固化效应的影响.层剪强度变化是界面脱粘与树脂基体后续固化两种因素综合作用的结果.
参考文献
| [1] | XIAO Shaobo,LIU Zhixiong,Aerospace Materials and Technology,4,1(1993)(肖少伯,刘志雄,宇航材料工艺,4,1(1993)) |
| [2] | LI Chundong,YANG Dezhuang,HE Shiyu,Ghinese Journal of Materials Research,17(4),422(2003)(李春东,杨德庄,何世禹,材料研究学报,17(4),422(2003)) |
| [3] | JIANG Lixiang,HE Shiyu,YANG Dezhuang,Chinese Journal of Materials Research,17(4),428(2003)(姜利祥,何世禹,杨德庄,材料研究学报,17(4),428(2003)) |
| [4] | RSSperber,AIAA-90-0781,(1990) |
| [5] | JDauphin,Vacuum,32(10/11),669(1982) |
| [6] | Toshiyuki Shimokawa,Hisaya Katoh,Yasumasa Hamaguchi,Shigeo Sanbongi,Hiroshi Mizuno,Journal of Composite Materials,7,885(2002) |
| [7] | LHancox,Thermal Cycling Materials & Design,19,85(1998) |
| [8] | Satoshi Kobayashi,Kazuhiro Terada,Shinji Ogihara,Nobuo Takeda,Composites Science and Technology,61,1735(2001) |
| [9] | Kwang-Bok Shin,Chun-Gon Kim,Chang-Sun Hong,Ho-Hyung Lee,Composites Part B: Engineering,31,223(2000) |
| [10] | LI Zhijun,LI Xuecheng,BAO Jianwen,CHENG Xiangbao,Journal of Materials Engineering,11,10(1999)(李志君,李学成,包建文,陈祥宝,材料工程,11,10(1999)) |
| [11] | AGMiller,ALWingert,Fracture Surface characterization of Commercial Graphite/Epoxy Systems,in:Fractography of Modern Engineering Materials,STP 948(ASTM,PA,1987) p154 |
| [12] | DPurslow,Composites,241,10(1981) |
| [13] | RAGrove,BWSmith, Compendium of Post-Failure Analysis Techniques for Composite MaterialsAFWAL-TR-86-4137 (Boeing Military Aircraft Co Seattle,WA,1986) p137 |
| [14] | XI Niansheng,Journal of Aviation Materials,2,56(2000)(习年生,航空材料学报,2,56(2000)) |
| [15] | DFThompson,HWBabel,SAMPE Quarterly,21(1),27(1989) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%