CRP Technology has introduced Winform XT 2.0 IMG, a new injection molding material based on Nylon PA 12 and reinforced with carbon fibers.
The material offers exceptional mechanical properties, including high stiffness, impact resistance, and precise rendering of fine details, making it ideal for demanding applications across various industries.
Winform XT 2.0 IMG allows for the production of high-quality injection-molded parts that deliver the same performance as functional prototypes created using the Windform XT 2.0 3D printing material. This enables companies to implement more efficient production processes without compromising on quality.
CRP Technology unveils eco-friendly, high-performance injection molding material - Winform XT 2.0 IMG.
Winform XT 2.0 IMG - An innovative recycled Nylon PA 12-based carbon fiber blend for demanding injection molding applications; Image: CRP Technology
CRP Technology, a leading provider of 3D printing solutions, recently unveiled its new injection molding material, Winform XT 2.0 IMG. This innovative material is based on Nylon PA 12 and reinforced with carbon fibers to ensure high performance in production. Notably, Winform XT 2.0 IMG is made from 100% recycled and regranulated Windform XT 2.0, a material used in industrial 3D printing.
The unique composition of Winform XT 2.0 IMG offers a range of premium features, including high stiffness, impact resistance, and exceptional accuracy in rendering fine details, even with thin walls. With these outstanding mechanical properties, the material is ideal for demanding applications in various industries such as automotive, transportation, e-mobility, agriculture, robotics, and industrial design.
Using Winform XT 2.0 IMG, high-quality injection-molded parts can be produced, preserving the same performance as functional prototypes previously created with the Windform XT 2.0 3D printing material. This enables companies to implement more cost-effective and faster production processes without compromising on desired mechanical properties and precision.
