Fiber-reinforced plastics are known as advanced composite materials thanks to their high strength and lightweight features. Carbon fiber reinforced polymers (CFRPs) are one of the high-performance and high-cost fiber-reinforced polymer (FRPs) materials. They are used in several high-performance engineering applications such as motorsports, marine, aviation, energy and defense industry. The cost of carbon fiber is higher compared to many other materials, more competitive and cost-effective productions will spur the demand for composite parts exponentially. Thus, hybrid laminate composite containing carbon and glass fiber materials were manufactured as an alternative for CFRP materials. Because using glass fiber prepreg instead of carbon fiber prepreg will lead the material to become cheaper. However, machining of the FRP materials is still an important issue. For this reason, the present study is focused on the mechanical and machining performance of the polymer hybrid and carbon fiber epoxy composites.

纤维增强塑料因其高强度和轻质特性而被称为先进的复合材料。碳纤维增强聚合物（CFRPs）是高性能、高成本的纤维增强聚合物（FRPs）材料之一。它们用于多种高性能工程应用，例如赛车运动、海洋、航空、能源和国防工业。与许多其他材料相比，碳纤维的成本更高，更具竞争力和成本效益的生产将成倍地刺激对复合材料零件的需求。因此，制造包含碳纤维和玻璃纤维材料的混合层压复合材料作为 CFRP 材料的替代品。因为使用玻璃纤维预浸料代替碳纤维预浸料会导致材料变得更便宜。然而，FRP 材料的加工仍然是一个重要的问题。因此，本研究的重点是聚合物杂化和碳纤维环氧复合材料的机械和加工性能。