The present world scenario demands for the utilization of natural fiber‐reinforced polymeric composites as opposed to synthetic fiber‐reinforced composites mainly due to their environmental friendly behavior, availability in abundance, cost‐effectiveness, and lightweight and moderately high‐strength properties. Along with the above said advantages, the ease of manufacturing of natural fibers has made the researchers around the globe to exploit several locally available natural fibers to understand their feasibility as reinforcement phases in different polymeric composites and their suitability in various commercial and engineering applications. This research investigation has been conducted to discover a better natural/synthetic fiber‐reinforced polymer hybrid composite for commercial engineering applications. This research investigation intends to recognize the effect of laminate stacking sequence of Prosopis juliflora fibers (PJFs)/E‐glass/carbon fabrics reinforced hybrid epoxy composites under five different composite designations. Manual hand layup method is used as the fabrication method, while studies on physical, mechanical, and morphological properties have been conducted in this research work. From the results obtained, it is obvious that the properties of PJFs/E‐glass/carbon fabrics reinforced epoxy composites enhanced due to the hybridization with the addition of E‐glass and carbon fabrics in PJFs and augments its suitability in the use of engineering structural applications.

中文翻译：

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用于结构应用的Prosopis juliflora树皮纤维/电子玻璃/碳纤维增强杂化聚合物复合材料的力学和形态学行为的实验研究

当前的世界情景要求使用天然纤维增强的聚合物复合材料，而不是合成纤维增强的复合材料，这主要是由于它们的环保行为，丰富的可用性，成本效益以及轻便和中等强度的特性。除了上述优点外，天然纤维的制造简便性已使全球研究人员开发出几种本地可用的天然纤维，以了解它们在不同聚合物复合材料中作为增强相的可行性以及在各种商业和工程应用中的适用性。进行这项研究是为了发现一种更好的天然/合成纤维增强聚合物杂化复合材料，用于商业工程应用。以5种不同的复合名称命名的Prosopis juliflora纤维（PJFs）/ E玻璃/碳纤维织物增强了混合环氧复合材料。手工铺叠法被用作制造方法，而这项研究工作已经进行了物理，机械和形态特性的研究。从获得的结果来看，很明显PJFs / E-玻璃/碳纤维织物增强的环氧复合材料的性能由于在PJFs中添加E-玻璃纤维和碳纤维织物的杂交而得到增强，并增强了其在工程结构中的适用性应用程序。