Filters

Material

Finish effect

No choice available on this group

Density

0 g/cm³ - 2 g/cm³

Print properties

Printing temperature

0 ºC - 240 ºC

Print bed temperature

40 ºC - 95 ºC

Mechanical properties

Impact strength

0 KJ/m² - 90 KJ/m²

Elongation at break

0 % - 600 %

Tensile strength

0 MPa - 70 MPa

Tensile modulus

440 MPa - 6500 MPa

Flexural strength

0 MPa - 80 MPa

Flexural modulus

390 MPa - 4520 MPa

Surface hardness (scale)

7 - 7

Thermal properties

Softening temperature (ºC)

50 ºC - 160 ºC

Highlighted features

PP (Polypropylene)

Polypropylene (PP) offers excellent impact resistance, chemical resistance and low density. Ideal for lightweight parts and industrial applications. Available in many formats, with special fibres and properties.

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About PP

Polypropylene (PP) filament emerges as a compelling choice in the field of 3D printing, valued for its excellent chemical resistance, strength, and flexibility. Derived from thermoplastic polymers, PP filament offers users a versatile material suitable for a wide range of applications. With its superior chemical resistance, impact strength, and fatigue resistance, PP filament caters to professionals and enthusiasts seeking high-performance materials for functional prints.

Considerations

Printing with PP filament typically requires a standard desktop FDM 3D printer equipped with a heated bed and specific adhesives to ensure proper adhesion and minimize warping. Printer settings may need adjustments to meet the specific requirements of PP, including lower extrusion temperatures and slower print speeds to achieve optimal results. Additionally, PP filament benefits from a controlled printing environment with adequate ventilation to mitigate potential vapors and odors. Despite these considerations, PP filament offers excellent printability and dimensional stability, providing consistent and high-quality prints with exceptional strength and flexibility.

Applications

PP filament finds diverse applications in various industries and disciplines, from packaging and manufacturing to automotive and consumer goods. Its chemical resistance and flexibility make it suitable for producing functional parts such as containers, ducts, and hinges that require resistance to chemicals and impacts. Additionally, the lightweight and durable nature of PP filament make it ideal for producing lightweight components and prototypes in industries such as aerospace and automotive. With its versatility and reliability, PP filament continues to gain popularity as a preferred choice for professionals seeking robust and high-performance materials for their 3D printing projects.