玻璃纤维
玻璃纖維
파리섬유
Fiber Glass
2015年
5期
10-14
,共5页
徐挺%肖军%闫西涛%赵聪%田文平%郭立杰%袁定新%诸静%左龙彦
徐挺%肖軍%閆西濤%趙聰%田文平%郭立傑%袁定新%諸靜%左龍彥
서정%초군%염서도%조총%전문평%곽립걸%원정신%제정%좌룡언
纤维束%展纱%超声展纱法%宽度%纤维损伤
纖維束%展紗%超聲展紗法%寬度%纖維損傷
섬유속%전사%초성전사법%관도%섬유손상
fiber tow%fiber spreading%ultrasonic spreading method%width%fiber damage
针对卫星轨道飞行器铺丝用预浸纱要求,开展热熔法制备展纱工艺研究。对比分析超声池和超声杆两种超声辅助方法对浸胶前纤维束展开宽度的影响,研究超声波辅助展纱机理,并结合展纱辊展纱,研究不同展纱方式对纤维束展开宽度及损伤的影响。研究结果表明:由于超声池宽度回缩效应,超声杆法优于超声池法;与展纱辊展纱相比,超声展纱展开宽度增加了18.2%,纤维损伤强度减少了4.03%;两种展纱方式相结合宽度增加至1.66倍,纤维拉伸强度降低至89.14%,两种展纱方式相结合可以提高展纱效率。
針對衛星軌道飛行器鋪絲用預浸紗要求,開展熱鎔法製備展紗工藝研究。對比分析超聲池和超聲桿兩種超聲輔助方法對浸膠前纖維束展開寬度的影響,研究超聲波輔助展紗機理,併結閤展紗輥展紗,研究不同展紗方式對纖維束展開寬度及損傷的影響。研究結果錶明:由于超聲池寬度迴縮效應,超聲桿法優于超聲池法;與展紗輥展紗相比,超聲展紗展開寬度增加瞭18.2%,纖維損傷彊度減少瞭4.03%;兩種展紗方式相結閤寬度增加至1.66倍,纖維拉伸彊度降低至89.14%,兩種展紗方式相結閤可以提高展紗效率。
침대위성궤도비행기포사용예침사요구,개전열용법제비전사공예연구。대비분석초성지화초성간량충초성보조방법대침효전섬유속전개관도적영향,연구초성파보조전사궤리,병결합전사곤전사,연구불동전사방식대섬유속전개관도급손상적영향。연구결과표명:유우초성지관도회축효응,초성간법우우초성지법;여전사곤전사상비,초성전사전개관도증가료18.2%,섬유손상강도감소료4.03%;량충전사방식상결합관도증가지1.66배,섬유랍신강도강저지89.14%,량충전사방식상결합가이제고전사효솔。
In order to meet the requirements of prepreg tows for automated fiber placement for making satellite or-biting crafts,the fiber spreading technology for hot-melt impregnation was studied. The influences of ultrasonic rod and ultrasonic liquid tank methods on fiber spreading effect were comparatively analyzed. The mechanism of ultra-sonic fiber spreading method was discussed. With the help of fiber spreading roller,the influences of different fiber spreading options on the spread width and fiber damage were investigated. The results showed that because the ultra-sonic liquid tank method had width retraction effect, ultrasonic rod method was superior to ultrasonic liquid tank method,that the spread width of ultrasonic fiber spreading method was 18. 2% larger than the spreading roller meth-od,and that by combining ultrasonic method with roller method,the width was increased to 1. 66 times of the initial value and the fiber tensile strength was decreased to 89. 14%of the contrast sample. Thus,the combination of two methods is able to improve the spreading efficiency.