Also known as rapid prototyping, prototype manufacturing this technology is an important element in modern manufacturing technology. Rapid prototyping machines and equipment can instantly, quickly and accurately convert design concepts or designs, based on the entire process of creating solid models, similar solutions and cut-to-sheet solutions, into specific part prototypes or ready-to-make parts. It can provide a highly efficient and cost-effective way to complete testing of part prototypes and design ideas, filling a gap in traditional manufacturing methods.

Rapid prototyping technology prototype manufacturing is based on the basic principle of discrete variable/vapour deposition moulding, in which 3D CAD solid models are stacked according to a certain thickness, turning a 3D model into a thin 2D planar solid model. The 2D model is then developed into a data processing method, the main parameters of production and processing are added, and each layer is continuously produced and processed by CNC machine tool operations, and the production and processing method of the bonded and moulded planograms is used. There are many processing methods for rapid prototyping technology, all layer-by-layer, but the difference is the raw materials used and the bonding method. Typical additive technologies include UV-cured lamp additive technology (SLA), fused deposition (FDM), laser powder sintering (SLS) and laminated wheel houses (LOM).

In contrast to traditional hong kong loan processing methods, additive technologies offer significant advantages in the areas of speed, integration, coverage, changeability and intelligence. Rapid prototyping, for example, is a technology that fully automates the process, with the operator simply keying in key parameters, without much intervention.
Rapid prototyping has seen a huge upsurge in recent years and is used in a wide range of industries, including industrial production, architecture, medicine, modeling, archaeological research and airline interiors.