Filters

Density

1 g/cm³ - 2 g/cm³

Print properties

Printing temperature

0 ºC - 300 ºC

Print bed temperature

30 ºC - 100 ºC

Mechanical properties

Impact strength

0 KJ/m² - 40 KJ/m²

Elongation at break

0 % - 30 %

Tensile strength

20 MPa - 2980 MPa

Tensile modulus

1440 MPa - 9990 MPa

Flexural strength

40 MPa - 2080 MPa

Flexural modulus

40 MPa - 9220 MPa

Surface hardness (scale)

6 - 7

Thermal properties

Softening temperature (ºC)

40 ºC - 160 ºC

Highlighted features

High speed

Designed for fast 3D printing without loss of quality, high-speed filaments enable rapid production of prototypes and functional parts on high-speed 3D printers. Ideal for urgent projects.

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About high-speed filaments

High-speed filaments represent a significant advancement in the realm of 3D printing, offering enhanced printing capabilities that enable rapid production of parts and prototypes. These specialized filaments are formulated to optimize flow characteristics and reduce print times, allowing for faster printing speeds compared to traditional materials. High-speed filaments come in various formulations, including PLA, ABS, and PET, each tailored to specific application requirements and printing conditions.

Considerations

Printing with high-speed filaments requires specialized equipment capable of achieving accelerated printing speeds while maintaining print quality and dimensional accuracy. High-speed 3D printers are equipped with features such as high-flow nozzles, powerful extrusion systems, and advanced motion control systems to maximize printing efficiency. Additionally, optimized slicing software and print profiles are essential for fine-tuning print parameters and achieving optimal results with high-speed filaments. Users may need to adjust printing temperatures, layer heights, and cooling settings to ensure proper adhesion and dimensional stability during high-speed printing.

Applications

High-speed filaments offer significant benefits in terms of productivity, allowing for rapid iteration and production of prototypes, tooling, and end-use parts. In industries such as automotive, aerospace, and manufacturing, where time-to-market is critical, high-speed filaments enable accelerated product development cycles and reduced lead times. Additionally, in educational and research settings, high-speed filaments provide opportunities for rapid experimentation and innovation, fostering creativity and exploration in 3D printing technology. With their enhanced printing capabilities and potential for accelerated production, high-speed filaments are driving efficiency and productivity in additive manufacturing and opening up new possibilities for rapid prototyping and manufacturing applications.