碳纳米管增强玻璃纤维/环氧树脂和碳纤维/环氧复合材料管状结构的准静态破碎和吸能行为研究

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY
Yasin Yilmaz, H. Callioglu, Ali Balbay
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引用次数: 1

摘要

但是çalışmada,碳纳米管(CNT) katkılı cam fiber/epoksi (GFRP) ve carbon fiber/epoksi (CFRP) kompozit borusal yapıların ezilme对碳纳米管(CNT)增强玻璃纤维/环氧树脂(GFRP)和碳纤维/环氧树脂(CFRP)复合管状结构的破碎和吸能行为进行了研究。本研究主要由两个部分组成。第一部分为实验研究。在这个阶段,功能化的多壁碳纳米管添加(重量百分比为0.1;0.2;0.3;0.5;1;采用手工铺层法制备GFRP复合材料板材和无添加剂GFRP复合材料板材,并进行拉伸、压缩和剪切试验,确定复合材料的力学性能。作为这些研究的结果,0.5%碳纳米管的添加量被确定为复合材料在拉伸,压缩和剪切强度方面最合适的速率。第二部分是数值研究。在此阶段,利用商用有限元软件ABAQUS对圆形和方形截面GFRP和CFRP管的准静态破碎和能量吸收特性进行了数值研究。CFRP管的力学性能取自现有文献。数值计算结果表明,碳纤维布圆形管的比能吸收能力比能吸收能力最高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of quasi-static crushing and energy absorption behaviors of carbon nanotube reinforced glass fiber/epoxy and carbon fiber/epoxy composite tubular structures
Bu çalışmada, karbon nano tüp (CNT) katkılı cam fiber/epoksi (GFRP) ve karbon fiber/epoksi (CFRP) kompozit borusal yapıların ezilme ve crushing and energy absorption behavior of carbon nanotube (CNT) reinforced glass fiber/epoxy (GFRP) and carbon fiber/epoxy (CFRP) composite tubular structures has been investigated. The study consists of two main parts. First part deals with the experimental studies. At this stage, functionalized multi-walled CNT added (at weight percentages of 0.1; 0.2; 0.3; 0.5; 1; 2%) and additive free GFRP composite plates were produced using hand lay-up method and tension, compression and shear tests were carried out to determine mechanical properties of the composite materials. As a result of these investigations, 0.5% CNT addition is determined to be most suitable rate for the composite in terms of tension, compression, and shear strength. The second part deals with the numerical studies. At this stage, quasi-static crushing and energy absorption characteristics of circular and square cross-section GFRP and CFRP tubes were investigated numerically using the determined mechanical properties in a commercial finite element based software (ABAQUS). The mechanical properties of CFRP tubes were taken from the existing literature. As a result of numerical studies, the specific energy absorption capacity of circular CFRP tubes was found to be most efficient compared to the other tubes.
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