航空制造技术
航空製造技術
항공제조기술
AERONAUTICAL MANUFACTURING TECHNOLOGY
2014年
9期
80-82
,共3页
复合材料%光纤%力学性能
複閤材料%光纖%力學性能
복합재료%광섬%역학성능
Composites%Optical ifber%Mechanical performance
本文通过标准试验测试,研究了埋入光纤对复合材料基本力学性能的影响。研究结果表明,在光纤铺设间隔大于4.8mm的条件下,埋入光纤对复合材料强度和刚度的影响小于5%;埋入光纤能部分增加材料90°方向的强度和刚度性能。
本文通過標準試驗測試,研究瞭埋入光纖對複閤材料基本力學性能的影響。研究結果錶明,在光纖鋪設間隔大于4.8mm的條件下,埋入光纖對複閤材料彊度和剛度的影響小于5%;埋入光纖能部分增加材料90°方嚮的彊度和剛度性能。
본문통과표준시험측시,연구료매입광섬대복합재료기본역학성능적영향。연구결과표명,재광섬포설간격대우4.8mm적조건하,매입광섬대복합재료강도화강도적영향소우5%;매입광섬능부분증가재료90°방향적강도화강도성능。
Based on criterion test, the inlfuence research on composite materials mechanical performance of embedding optical fibers has been taken in the paper. The results indicated that the inlfuence of embedding opti-cal fibers into composite material is less than 5%, if the space between optical fibers is less than 4.8mm; and the stiffness and strength performances of 90 °direction will be increased a little in the embedding optical composite mate-rial.
