A mold is an industrial product that shapes materials in a specific structural form in a certain way. It is also a production tool that can produce industrial product parts with certain shape and size requirements in batches. From airplanes and cars to teacups and nails, almost all industrial products must be formed by molds. The high precision, high consistency and high productivity of parts produced by molds are unmatched by any other processing method. Molds determine to a large extent the quality, efficiency and new product development capabilities of products. Therefore, molds have the honorary title of “Mother of Industry”.
Mold design refers to staff who are engaged in the digital design of enterprise molds, including cavity molds and cold stamping dies. On the basis of traditional mold design, digital design tools are used to improve the quality of mold design and shorten the mold design cycle. Simply put, a model is made before a product is produced, and the mold designer is the person who designs the model.
Mold design is the core of industrial production. The most important economic support for a country is industry. Developed countries in the world have developed through industry.https://solidcomould.com/product/armrest-09/
There is no doubt that mold design is the first stop for industrial design. It requires excellent talents, but it cannot require as many people as recruiting general workers, but it definitely requires a lot of talents.
Mold design is now being used to improve production efficiency in everything from hardware mold design, plastic mold design to glass mold design, and even ceramic craftsmanship. Therefore, high-end design talents are needed for everything from electronic products to large machinery and automobile mold design.https://www.sciencedirect.com/science/article/abs/pii/S1526612523007223
The main tasks engaged in mold design include:
(1) Digital drawing – convert three-dimensional product and mold models into two-dimensional engineering drawings used in conventional processing;
(2) Digital design of molds – establish relevant three-dimensional physical models of molds based on product models and design intentions;
(3) Digital analysis and simulation of molds – Carry out structural analysis, thermal analysis, fatigue analysis and motion analysis of mold parts according to product forming process conditions;
(4) Product forming process simulation – injection molding, stamping forming;
(5) Customize standard parts and standard design processes suitable for the company’s mold design;
(6) Mold production management.
