High-speed 3D printing technology has revolutionized the manufacturing industry by significantly reducing printing time. However, this advancement comes with strict requirements for both the printer and the printing materials. Traditional filaments fail to meet the necessary melt flow index for high-speed printing, resulting in issues like surface imperfections, warping, and weak interlayer adhesion. To address these challenges, Eryone has developed high-speed PLA+ filament through modifications in raw material composition and process optimization. This innovative filament allows for flawless printing at speeds ranging from 60-600 mm/s, greatly reducing printing time without compromising print quality.
High-speed 3D printing has transformed the manufacturing landscape, enabling faster and more efficient production. The Prusa MK3 printer, for instance, takes approximately two and a half hours to print a 3D Benchy model. In contrast, the Bambu X1, equipped with Eryone’s high-speed PLA+ filament, can complete the same print in just 40 minutes using the standard mode. However, achieving such high printing speeds poses challenges for both the printer and the filament.
Traditional printing materials struggle to meet the melt flow index requirements of high-speed printing, resulting in various issues during the printing process. Surface imperfections, warping, and weak interlayer adhesion are common problems encountered when attempting high-speed printing with traditional filaments. These limitations prompted Eryone to develop a solution.
Eryone tackled the challenge by modifying the raw material composition and optimizing the manufacturing process to create high-speed PLA+ filament. This advanced filament exhibits exceptional performance, enabling flawless printing at speeds ranging from 60-600 mm/s. Even at speeds around 300 mm/s, it maintains perfect print quality without compromising stability.
Eryone’s high-speed PLA+ filament has revolutionized the 3D printing industry by providing a solution to the challenges of high-speed printing. By addressing the limitations of traditional filaments, this innovative material has significantly reduced printing time while maintaining superior print quality. Manufacturers can now accelerate their production processes, meet market demands more efficiently, and reduce overall costs.