Role of intra-ply hybridization and nano reinforcement on crack growth of epoxy

IF 1.3 4区 材料科学 Q3 CHEMISTRY, APPLIED
Payman Sahbah Ahmed
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引用次数: 0

Abstract

Purpose Epoxy resins are widely used in a variety of engineering applications, including composite wind turbine blades used in the renewable energy industry, highly complex structural components for aircraft, paints, coatings, industrial tooling, biomedical systems, adhesives, electronics and automotive. Epoxies' low fracture toughness is one of the key obstacles preventing its adoption in a wider range of applications. To address epoxy's low fracture toughness, this paper aims to examine the roles of intra-ply hybridization and nano reinforcing. Design/methodology/approach This paper investigates the role of intra-ply hybridization of glass-carbon woven fibers and adding 0.8 wt.% of multiwall carbon nanotube (MWCNT) nano reinforcement to overcome the low fracture toughness of epoxy. A bending test is used to calculate the composites elastic parameters, and a notched sample three-point bending test is used to show crack behavior in addition to using materials characterization methods to reveal the effect of the MWCNT on structure, bonding, glass transition temperature (Tg) and dispersion of MWCNT in the matrix. Furthermore, this paper suggests using the finite element method to overcome the difficulty in calculating the crack extension. Findings Intra-ply hybridization and MWCNT reinforcement decrease the crack extension of epoxy with time. The inclusion of high-strength carbon fiber increased the fracture toughness of glass composite. Furthermore, the existence of MWCNT in the surrounding area of the notch in epoxy composites hinders crack propagation and provides stiffness at the interface by bridging the crack and eventually enhancing its fracture toughness. Originality/value Studying the role of intra-ply hybridization of glass-carbon woven fibers and adding 0.8 wt.% of MWCNT nano reinforcement to overcome the low fracture toughness of epoxy. Additionally, this research recommends using the finite element method to overcome the challenge of computing the crack extension.
层内杂化和纳米增强对环氧树脂裂纹扩展的影响
环氧树脂广泛用于各种工程应用,包括可再生能源工业中使用的复合风力涡轮机叶片,飞机高度复杂的结构部件,油漆,涂料,工业工具,生物医学系统,粘合剂,电子和汽车。环氧树脂的低断裂韧性是阻碍其广泛应用的主要障碍之一。针对环氧树脂断裂韧性低的问题,研究了层内杂化和纳米补强的作用。设计/方法/方法本文研究了玻璃碳编织纤维的层内杂化和添加0.8 wt.%的多壁碳纳米管(MWCNT)纳米增强剂对克服环氧树脂低断裂韧性的作用。采用弯曲试验计算复合材料的弹性参数,采用缺口样三点弯曲试验表征裂纹行为,并采用材料表征方法揭示MWCNT对MWCNT在基体中的结构、键合、玻璃化转变温度(Tg)和分散度的影响。此外,本文还建议采用有限元法来克服裂纹扩展计算的困难。发现层内杂化和MWCNT增强可使环氧树脂的裂纹扩展随时间延长而减小。高强度碳纤维的加入提高了玻璃复合材料的断裂韧性。此外,MWCNT在环氧复合材料缺口周围区域的存在阻碍了裂纹扩展,并通过桥接裂纹在界面处提供刚度,最终提高其断裂韧性。研究了玻璃碳织造纤维的层内杂化作用和添加0.8 wt.%的MWCNT纳米增强剂克服环氧树脂断裂韧性低的问题。此外,本研究建议使用有限元方法来克服计算裂纹扩展的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pigment & Resin Technology
Pigment & Resin Technology 工程技术-材料科学:膜
CiteScore
2.80
自引率
21.40%
发文量
91
审稿时长
>12 weeks
期刊介绍: The journal looks at developments in: ■Adhesives and sealants ■Curing and coatings ■Wood coatings and preservatives ■Environmentally compliant coating systems and pigments ■Inks for food packaging ■Manufacturing machinery - reactors, mills mixing and dispersing equipment, pumps ■Packaging, labeling and storage ■Plus topical features and news on materials, coatings, industry people, conferences, books and so on ■Raw materials such as pigments, solvents, resins and chemicals ■Testing equipment and procedures
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