Influence of Fiber Orientation and Fillers on Low Velocity Impact Response of the Fabric Reinforced Epoxy Composites

被引:0
作者
M. Bunea
V. Bria
F. S. Silva
I. G. Bîrsan
M. Buciumeanu
机构
[1] Cross–Border Faculty,Department of Applied Sciences
[2] “Dunarea de Jos”,CMEMS
[3] University of Galati,UMinho
[4] University of Minho,Department of Mechanical Engineering, Faculty of Engineering
[5] “Dunarea de Jos” University of Galati,undefined
来源
Applied Composite Materials | 2021年 / 28卷
关键词
Fabric reinforced epoxy composites; Hybrid fabric; Low velocity impact; Impact damage;
D O I
暂无
中图分类号
学科分类号
摘要
The low velocity impact response of the epoxy composite materials, which were reinforced with various hybrid contents, such as plain pure or hybrid fabrics (carbon, aramid and glass fibers and copper wires) and filler mixtures into the epoxy matrix (aramid powder, potatoes starch, barium ferrite and carbon black) was investigated using a drop weight impact machine. The aim of this study was to characterize and assess the effects of fiber orientation at various angles and filler mixtures into epoxy matrix on the impact response. All the tests were carried out at constant impact energy, namely 90.629 J. Results indicated that the fiber orientation at various angles has a positive effect on impact response, mainly in the case of aramid fabric reinforced composites. In terms of influence of fillers addition into matrix, it was obtained an improvement on the impact response of hybrid fabric reinforced composite as compared to the pure fabric reinforced composites.
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页码:1277 / 1290
页数:13
相关论文
共 107 条
[1]  
Khashaba UA(2017)Low-velocity impact of woven CFRE composites under different temperature levels Int. J. Impact Eng 108 191-204
[2]  
Othman R(2018)Damage and wave propagation characteristics in thin GFRP panels subjected to impact by steel balls at relatively low-velocities Int. J. Impact Eng 111 21-33
[3]  
Nassr AA(2018)Influence of temperature and impact energy on low velocity impact damage severity in CFRP Compos. A Appl. Sci. Manuf. 115 76-87
[4]  
Yagi T(2015)Experimental study of the impactor mass effect on the low velocity impact of carbon/epoxy woven laminates Compos. Struct. 133 774-781
[5]  
Maruyama T(2017)On the mechanical response of CFRP composite with embedded optical fibre when subjected to low velocity impact and CAI tests Compos. Struct. 179 21-34
[6]  
Hayashi G(2019)Impact and post-impact properties of hybrid-matrix laminates based on carbon fiber-reinforced epoxy and elastomer subjected to low-velocity impacts Compos. Struct. 208 535-545
[7]  
Körbelin J(2019)Damage and failure mechanism of thin composite laminates under low-velocity impact and compression-after-impact loading conditions Compos. B Eng. 163 642-654
[8]  
Derra M(2015)A damage evolution study of E-glass/epoxy composite under low velocity impact Compos. B Eng. 76 235-248
[9]  
Fiedler B(2018)Reliability assessment of glass epoxy composite plates due to low velocity impact Compos. Struct. 200 659-668
[10]  
Artero-Guerrero JA(2013)Experimental and numerical investigation of aramid fibre reinforced laminates subjected to low velocity impact Polym. Testing 32 1163-1173
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