Latest Technologies Used in 3D Printing Services in China.
Discerning product engineers, designers, and manufacturers rely on 3D printing services in China to create functional and aesthetic models, low-volume production parts, master patterns or models, and quick fit, form, and function prototypes. Reputable and established service providers are versatile in their offerings by investing in the latest technologies in additive manufacturing. Apart from Selective Laser Sintering (SLS), Fused Deposition Modeling (FDM), and stereolithography (SLA), they offer solutions like Direct Metal Laser Sintering (DMLS) and ProJet MJP.
Direct metal laser sintering
DMLS is one of the industrial additive manufacturing technologies that crafts parts from various metals one layer at a time. Like SLS, it sinters powdered material together to create complex shapes, which would otherwise be challenging or impossible to make using other manufacturing methods. Only this time, it uses metal powders like titanium, copper, tool steel, stainless steel, and aluminum.
Direct metal laser sintering is one of the latest 3D printing services in China that creates metal parts with complex geometries, making it ideal for building detailed products. It is also practical for crafting functional prototypes and parts and versatile for low-volume production. The process is widely used in aerospace, medical, and automotive, especially for applications like part consolidation and weight-saving applications.
ProJet MJP 3D printing
You can’t go wrong with ProJet MJP for crafting precision prototypes and parts fast, with high accuracy to CAD. In ultra-HD mode, it can print features as small as 300 microns, resulting in high-resolution objects. It is also among the 3D printing services in China that allow greater design freedom as the support material is easy to remove.
ProJet MJP is a great choice for creating detailed and high-resolution models and parts. It lets you build prototypes for concept modeling and sales, marketing and communication, and rapid design iterations for elastomeric or rigid plastic products. Some materials make it possible to create biocompatible medical devices fast. Some manufacturers may even rely on it to make custom tools, fixtures, and jigs.