Polymeric hybrid nanocomposites, due to improved mechanical, thermal, and electrical properties, are key factors in recent technologies. Because of anisotropic characteristics of polymeric hybrid nanocomposites, mechanical properties and their behavior are very difficult to predict. If they are fabricated with complicated woven fabric patterns, it becomes more difficult to predict. This review discusses in detail the properties and manufacturing methods of various fibers, focuses on different manufacturing, processing, and characterization techniques used for polymeric hybrid nanocomposites. Theoretical composite models and some recent advances in modeling and simulation techniques for polymer nanoparticle composites are discussed and thus this review can provide significant guidelines for the development of manufacturing, characterization, testing, modeling, and simulation techniques for high performance hybrid polymer nanocomposites as current state of art.

聚合物杂化纳米复合材料由于改善了机械、热和电性能，成为最新技术的关键因素。由于聚合物杂化纳米复合材料的各向异性特征，机械性能及其行为很难预测。如果它们是用复杂的机织物图案制成的，那么预测就变得更加困难。本综述详细讨论了各种纤维的性能和制造方法，重点关注用于聚合物杂化纳米复合材料的不同制造、加工和表征技术。讨论了理论复合模型以及聚合物纳米颗粒复合材料建模和模拟技术的一些最新进展，因此本综述可以为当前状态的高性能杂化聚合物纳米复合材料的制造、表征、测试、建模和模拟技术的开发提供重要指导艺术的。