The application of carbon fiber reinforced thermoplastic composites， co-curing with embedded metal inserts， is one of the effective methods to realize high-performance lightweight and intelligent design of structures in important engineering fields such as aerospace and automobile. It can effectively avoid the loss in the mechanical properties caused by the drilling of composites and local stress concentration by fiber discontinuity. In this paper， the metal insert was embedded in carbon fiber/PA6 prepreg. The co-cured composites were prepared by the hot-press process. The effects of two different structural forms of continuous and discontinuous fibers around the embedded component on the mechanical behaviors of the composites were investigated. With the aid of the ultrasonic testing technology， the damage and failure modes of intelligent connection structures were analyzed. The influence of the local fiber structure on the mechanical properties and failure behaviors of composites was simulated by adopting the finite element method. The results show that the local fiber structure around the embedded metal inserts has a neglectable influence on the mechanical properties of carbon fiber reinforced thermoplastic composites， but causes different failure modes in composites.