The present experimental study aims at assessing the different effects of the varying environments on the mechanical properties of FRP composites. The mechanical performance of a composite material is decisively controlled by the state of fiber-matrix interface . Its properties influence the integrity of composite behavior because of its role in transferring stress between the fiber and the matrix. The factors affecting the interface are too complex to be precisely concluded. Fibrous composites are increasingly being used in many casual as well as critical applications owing to various desirable properties including high specific strength, high specific stiffness and controlled anisotropy. But unfortunately polymeric composites are susceptible to heat and moisture when operating in changing environmental conditions.ud Samples of several Glass-Epoxy composites were manufactured using the traditional hand layup method where the stacking of the plies were alternate and the weight fraction of fiber and matrix was kept at 40-60%.Specimens were cut according to the ASTM D 2344-84(1989) standards. Some of the specimens were kept in the As-cured condition so as to obtain the base properties. Experimental studies have been carried out to study the effects of thermal ageing, liquid nitrogen temperature, thermal shocks, sea and distilled water. Also, tests have been performed to study the effect of ultraviolet rays and microwave conditions on the mechanical behavior of Glass-epoxy composites. The specimens were divided into groups. One group was subjected to cryogenic conditions at -750C for 3 hours and 6 hours. Another group was subjected to elevated temperature at +750C for 5 hours and 10 hours. A separate group samples were immersed in the two mediums separately namely sea water , distilled water at their boiling temperatures .Of the remaining samples a group of samples were kept in a microwave oven for 60 , 90 and 120 secs. whereas the other part of it was kept in a ultraviolet chamber for a period of 100 hrs. Thermal shocks of two types, up-cycle (lower to higher temperature immersion) and down-cycle (higher to lower temperature immersion) were applied The aged samples were subjected to 3-point short beam shear tests. The tests were performed at room temperature with 1 mm/min and 500 mm/min crosshead speeds. The weakening effects were sensitive to loading rate. The ILSS(shear strength) values were then compared with the base values of as cured specimen SEM analysis was done to ascertain the mode of failure.udud
展开▼
机译:本实验研究旨在评估不同环境对FRP复合材料力学性能的不同影响。复合材料的机械性能由纤维-基质界面的状态决定性地控制。由于其在纤维和基体之间转移应力的作用,其性能影响了复合材料性能的完整性。影响界面的因素过于复杂,无法精确得出结论。由于各种合乎需要的特性,包括高比强度,高比刚度和受控的各向异性,纤维复合材料正越来越多地用于许多休闲和关键应用中。但是不幸的是,聚合物复合材料在变化的环境条件下操作时容易受热和受潮。保持在40-60%。根据ASTM D 2344-84(1989)标准切割试样。将一些样品保持在固化状态,以获得基本性能。已经进行了实验研究以研究热老化,液氮温度,热冲击,海水和蒸馏水的影响。另外,已经进行了测试以研究紫外线和微波条件对玻璃-环氧树脂复合材料的机械性能的影响。标本分为几组。一组在-750℃下经受低温条件3小时和6小时。另一组在+ 750℃下经受高温5小时和10小时。将一组单独的样品分别浸入两种介质中,即沸点在海水,蒸馏水中的沸腾温度。其余样品中的一组样品在微波炉中放置60、90和120秒。而另一部分则在紫外线室内放置100小时。施加了两种类型的热冲击,即向上循环(从较低到较高的温度浸入)和向下循环(从较高到较低的温度浸入)。对老化的样品进行三点短梁剪切测试。该测试在室温下以1 mm / min和500 mm / min的十字头速度进行。减弱作用对加载速率敏感。然后将ILSS(剪切强度)值与固化样品的基值进行比较。进行SEM分析以确定破坏的模式。 ud ud
展开▼
