对两种材料体系(T300/QY8911和T300/5405)/铺层的复合材料层板进行三种支持条件(冲击点无支持、梁凸缘或长桁凸缘支持和肋凸缘支持)、六种冲击能量等级的冲击损伤特性及冲击后压缩强度试验研究.讨论了冲击能量、支持条件等与冲击损伤特性和剩余压缩强度的关系,研究结果表明,冲击表面凹坑深度和冲击损伤面积可用于表征复合材料冲击损伤,而基体裂纹长度不可以用于表征冲击损伤.且随着冲击点背面支持刚度的增加,冲击所造成的损伤随之减小.随着冲击能量的增加,冲击后压缩强度随之减小.在相同的冲击能量作用下,随着冲击点背面支持刚度的增加,冲击后压缩强度也随之增加.
参考文献
| [1] | NASA RP21142.Standard Tests for Toughened Resin Composite[S].,1985. |
| [2] | Suppliers of Advanced Composite Materials Association SRM 2288,Test Method for Compression after Impact Properties of Oriented Fiber Resin Composites[S].,1998. |
| [3] | Boeing Specification Support Standard BSS 7620,Advanced Composite Compression Tests[S].,1982. |
| [4] | RAETR 88012[S].Royal Aerospace Establishment,UK,1988. |
| [5] | PRICHARD J C;HOGG P J .The role of impact damage in post-impact compression testing[J].Composites,1990,21(06):503-510. |
| [6] | KIMPARA I;KAGEYAMA K;SUZUKI T.Simplified and unified approach to characterization of compressive residual strength of impact-damaged CFRP laminates[A].Trans-tech Publications,1998:19-33. |
| [7] | HB 6739-1993.碳纤维复合材料层合板冲击后压缩试验方法[S].中国航空工业总公司,1993. |
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%