In the wave of industrial development, the refinement of medical mould technology is a key driver for manufacturing advancement. This field, which integrates knowledge and skills from multiple disciplines, has become an important benchmark for measuring China's manufacturing level with its high-precision dimensional standards. As such, continuous exploration and innovation have led to the emergence of a series of professional mould manufacturing technologies in the processing and manufacturing industry, injecting new vitality into the sector.
The production and processing of medical moulds, particularly their metal surface treatment technology, can be described as a perfect combination of art and science. This technology aims to obtain the required specific surface properties by altering the surface morphology, composition, and organizational structure of solid metal materials or non-metal materials.
Specifically, this field mainly encompasses the following three innovative technologies:
Surface Modification Technology for Medical Moulds: This technology utilizes low-temperature plasma, laser generators, electron beams, and high-density solar energy to achieve ion implantation, thereby significantly improving the engineering plastic properties of the mould surface. This breakthrough technology provides a strong guarantee for the precision and durability of medical moulds.
New Surface Coating Technology: This technology forms unique functional coatings on the mould surface through various metal surface processing methods. These coatings require only a small amount of raw materials but can endow the mould with high performance that it originally could not possess or achieve, while significantly reducing production and manufacturing costs, achieving a win-win situation for economic benefits and technological innovation.
Integrated Surface Treatment Technology for Medical Moulds: This technology cleverly combines two or more surface treatment processes and applies them to the same product workpiece. By fully leveraging the unique advantages of various surface treatment technologies, it not only achieves technological complementarity and enhancement but also demonstrates the significant practical effects of combined applications, opening up new paths for improving the quality of medical moulds.
In summary, the surface engineering technology for medical moulds is leading the manufacturing industry towards higher levels with its continuous innovation and breakthroughs. In future developments, we have reason to believe that this field will bring us more surprises and possibilities.