Product packaging design for hybrid manufacturing process based on 3D printing and thermal environment sensors

With the continuous advancement of manufacturing technology, hybrid manufacturing processes have gradually become an important trend in product design and production. This article aims to explore efficient product packaging design based on 3D printing and thermal environment sensors, in order to enhance the thermal performance and environmental adaptability of packaging. Combining heat transfer theory, analyze the design of thermal environment sensors, including wind measurement methods based on Gaussian curve fitting and the construction of workshop temperature sensing systems, to achieve accurate monitoring of temperature fields. Further in-depth discussions will be conducted on the hot melt forming technology for 3D printing, covering the principles of 3D printing, parameter design, and temperature field theory of hybrid manufacturing, revealing its importance in optimizing printing effects. On the basis of the above research, this article further explores the product packaging design in the mixed manufacturing process and proposes a design scheme for the 3D printing system and mixed manufacturing process. At the same time, by calculating the carbon footprint of packaging design, the application strategies of green manufacturing in packaging design were explored, and the advantages of 3D printing in improving the overall performance and sustainability of packaging were elucidated. The research results indicate that combining thermal environment sensors with 3D printing technology not only improves the thermal performance of product packaging, but also effectively reduces environmental impact, providing a new direction for future intelligent manufacturing.