Statistical Analysis on the Influence of Stack Thickness on the Tensile Property of Glass Fiber Reinforced Polymer Laminates

IF 0.5 Q4 ENGINEERING, MANUFACTURING International Journal of Manufacturing Materials and Mechanical Engineering Pub Date : 2022-01-01 DOI:10.4018/ijmmme.299060

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Abstract

This work investigates the tensile testing of glass fibre-reinforced polymer (GFRP) composite material and its most influencing parameter. The GFRP constitutes bi-axial glass-fibre and epoxy-matrix. The three parameters considered for the tensile test are the load, elongation, thickness, and the experiment's factorial design is L9 orthogonal array. The percentage contribution of load, extension, and thickness for stress and strain is calculated using variance (ANOVA) analysis. Optimizating parameters made using response surface method (RSM). Since the solutions arrived at by this optimization process are promising, the optimized outcomes are high load, low elongation, and high thickness. Such works are beneficial for replacing concrete slabs constructed on the roads for rainwater harvesting. In such applications, non-crimp GFR panels with openings at regular intervals may replace concrete slab structures. A mathematical response surface model for the stress and strain parameters has been formulated. The model validation is done using the Pearson product-moment coefficient.

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叠层厚度对玻璃钢层合板拉伸性能影响的统计分析

本文研究了玻璃纤维增强聚合物(GFRP)复合材料的拉伸性能及影响其性能的主要参数。GFRP由双轴玻璃纤维和环氧基组成。拉伸试验考虑载荷、伸长率、厚度三个参数，试验的析因设计采用L9正交设计。载荷、延伸和厚度对应力和应变的百分比贡献使用方差(ANOVA)分析来计算。采用响应面法(RSM)对参数进行优化。由于该优化过程得到的解决方案是有希望的，优化后的结果是高负荷、低伸长率和高厚度。这类工程有助更换在道路上建造的混凝土楼板，以便收集雨水。在这样的应用中，无卷曲GFR板在固定间隔开孔可以取代混凝土板结构。建立了应力应变参数的数学响应面模型。模型验证使用皮尔逊积矩系数完成。

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来源期刊

International Journal of Manufacturing Materials and Mechanical Engineering ENGINEERING, MANUFACTURING-

CiteScore

2.70

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0.00%

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