Fatigue behavior of filament wound E-glass/epoxy composite tubes damaged by low velocity impact

Mesut Uyaner; Memduh Kara; Aykut Sahin

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Fatigue behavior of filament wound E-glass/epoxy composite tubes damaged by low velocity impact

机译：低速冲击损坏的细丝缠绕电子玻璃/环氧树脂复合管的疲劳行为

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In this paper, filament wound glass fiber reinforced plastic (GRP) tubes were studied. Impact tests were realized at 5 J and 10 J energy levels. Force-time and force-displacement curves were obtained and damage zones were also examined. The burst strengths of tubes were found in accordance with ASTM-D 1599 before and after impact. For fatigue tests, PLC controlled hydraulic inner-pressure fatigue test rig was set up. Damaged and non-damaged tubes were subjected to the fatigue test in accordance with ASTM-D 2992. The samples were exposed to five different stress levels; 30%, 35%, 40%, 50%, 60% of the burst strength. Number of cycles occurred up to the final failure was recorded and S-N diagrams were plotted. The burst strength and the fatigue life of the damaged GRP pipes were decreased as the impact energy increased. Also the decrease in the fatigue life was greater than that of the burst strength.

机译：本文研究了缠绕长丝的玻璃纤维增强塑料（GRP）管。冲击试验是在5 J和10 J的能级下进行的。获得了力-时间和力-位移曲线，并检查了损坏区域。在冲击之前和之后，根据ASTM-D 1599发现管的破裂强度。为了进行疲劳试验，建立了PLC控制的液压内压疲劳试验台。根据ASTM-D 2992，对损坏的和未损坏的管子进行疲劳测试。破裂强度的30％，35％，40％，50％，60％。记录直到最终故障为止的周期数，并绘制S-N图。随着冲击能量的增加，受损的玻璃钢管道的破裂强度和疲劳寿命降低。而且，疲劳寿命的降低大于爆裂强度的降低。

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来源
《Composites》 |2014年第5期|358-364|共7页
作者
Mesut Uyaner; Memduh Kara; Aykut Sahin;
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作者单位

Selcuk University, Engineering and Arch. Faculty, Dept. of Material and Metall. Eng, 42075 Konya, Turkey;

Selcuk University, Kadinhani Post Secondary Vocational School, Kadinhani, 42800 Konya, Turkey;

The Graduate School of Natural and Applied Science of Selcuk University, Department of Mechanical Engineering, 42003 Konya, Turkey;

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正文语种 eng
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关键词
A.Polymer-matrix composites (PMCs); B.Fatigue; B. Impact behavior; D. Mechanical testing; S-N diagram;

机译：A.聚合物基复合材料（PMC）;B.疲劳;B.冲击行为;D.机械测试;S-N图;

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1. Layer-wise damage prediction in carbon/Kevlar/S-glass/E-glass fibre reinforced epoxy hybrid composites under low-velocity impact loading using advanced 3D computed tomography [J] . Vasudevan A., Kumaran S. Senthil, Naresh K., International Journal of Crashworthiness . 2020,第1a2期

机译：使用先进的3D计算机断层扫描，在低速冲击载荷下碳/ kevlar / s玻璃/ e-玻璃纤维增强环氧混合复合材料的层面损伤预测
2. Layer-wise damage prediction in carbon/Kevlar/S-glass/E-glass fibre reinforced epoxy hybrid composites under low-velocity impact loading using advanced 3D computed tomography [J] . Zeitschrift fur Arznei- und Gewurzpflanzen . 2020,第1期

机译：使用先进的3D计算机断层扫描在低速冲击载荷下碳/ kevlar / S玻璃/ E-玻璃纤维增强环氧混合复合材料的层面损伤预测
3. Effect of winding orientation on energy absorption and failure modes of filament wound kenaf/glass fibre reinforced epoxy hybrid composite tubes under intermediate-velocity impact (IVI) load [J] . A.B.M. Supian, S.M. Sapuan, M.Y.M. Zuhri, Journal of Materials Research and Technology . 2021,第6期

机译：绕组取向对长丝伤口kEnaf /玻璃纤维增强环氧杂化复合管（IVI）载荷的能量吸收和失效模式的影响
4. STRENGTH DEGRADATION OF FILAMENT-WOUND GRAPHITE/EPOXY TUBES DUE TO EITHER IMPACT DAMAGE OR FABRICATION DEFECTS [C] . Dick J. Chang, Howard A. Katzman Advancing Materials in the Global Economy―Applications, Emerging Markets and Evolving Technologies . 2003

机译：丝束石墨/环氧树脂管的强力降解，原因是其受到任何损坏或制造缺陷
5. An experimental damage tolerance study of low-velocity, high-mass impact and compression after impact responses of locally porous, thin, quasi-isotropic graphite /epoxy composite laminates [D] . Gregory, Richard Eugene 2007

机译：局部多孔，薄，准各向同性石墨/环氧树脂复合材料层压板在冲击响应后的低速，大质量冲击和压缩的实验损伤容限研究
6. Influence of Nanoclay Dispersion Methods on the Mechanical Behavior of E-Glass/Epoxy Nanocomposites [O] . Victor A. Agubra, Peter S. Owuor, Mahesh V. Hosur 2013

机译：纳米粘土分散方法对电子玻璃/环氧纳米复合材料力学行为的影响
7. Torsional behavior of thin section glass fiber/epoxy composite filament wound tubes: Numerical modelling [O] . Mehmet Bulut 2019

机译：薄膜玻璃纤维/环氧复合长丝伤口管的扭转行为：数值模拟
8. Strength Degradation of Filament-Wound Graphite/Epoxy Tubes Due to Either Impact Damage or Fabrication Defects [R] . Chang, D. J. , Katzman, H. A. 2004

机译：由于冲击损坏或制造缺陷导致的纤维缠绕石墨/环氧树脂管的强度降低

Fatigue behavior of filament wound E-glass/epoxy composite tubes damaged by low velocity impact

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