Journal of Engineering Research

The rapid development of additive manufacturing technology provides new opportunities for the design of complex flow channel cooling structures. This study aims to explore the optimized design method of complex flow channel cooling structures based on additive manufacturing, with the goal of improving the efficiency of thermal management. Through the flexible design and optimization of the morphology of the cooling channels, the heat transfer performance of the cooling system can be effectively enhanced, while reducing the energy losses that are common in traditional cooling structures. This paper discusses the use of various optimization algorithms, such as topological optimization and parametric optimization, to design complex flow channel cooling structures. Combining with the characteristics of the additive manufacturing process, the manufacturability and performance of the design are optimized. The optimized complex flow channel structure can significantly improve the cooling efficiency and has great potential in practical applications.

Additive manufacturing; Complex flow channel; Cooling structure; Optimized design; Thermal management