Filters

Density

0 g/cm³ - 4 g/cm³

Print properties

Printing temperature

130 ºC - 400 ºC

Print bed temperature

20 ºC - 200 ºC

Mechanical properties

Impact strength

0 KJ/m² - 60 KJ/m²

Elongation at break

0 % - 700 %

Tensile strength

0 MPa - 130 MPa

Tensile modulus

0 MPa - 13000 MPa

Flexural strength

0 MPa - 190 MPa

Flexural modulus

0 MPa - 11200 MPa

Surface hardness (scale)

0 - 9

Thermal properties

Softening temperature (ºC)

0 ºC - 310 ºC

Highlighted features

Advanced

Polymer filaments for highly advanced industrial applications (PEl, ULTEM, PEEK, PEKK, PEKK, PEKK, PEKK, PEKK, PVC, PA, PC, PP). Available in many formats, with special fibres and properties.

Sort by:
Relevance Name, A to Z Name, Z to A Price, low to high Price, high to low
Showing 1-48 of 102 item(s)
Back to top

About advanced materials

Advanced filaments encompass a broad spectrum of materials tailored for specialized applications and industries, characterized by their unique properties. These filaments go beyond conventional thermoplastics, offering enhanced features such as electrostatic discharge (ESD) properties, improved thermal resistance, and certifications for specific industries such as aerospace, automotive, and medical. Additionally, advanced variants of traditional materials like nylon (PA6, PA12, PA612), PET, PP or PC provide enhanced properties suitable for demanding applications.

Considerations

Printing with advanced filaments requires consideration of specific printer settings and equipment to optimize print quality and material properties. Depending on the material composition and intended application, adjustments may be needed for extrusion temperatures, cooling settings, print speeds or build platforms to achieve the desired results. Furthermore, advanced filaments may require specialized post-processing techniques such as annealing or surface treatments to enhance material properties and performance.

Applications

The applications for advanced filaments span a wide range of industries and disciplines, reflecting their versatility and specialized properties. For example, filaments with ESD properties are utilized in electronics and manufacturing to prevent static buildup and protect sensitive components. Enhanced thermal resistance filaments find applications in automotive and aerospace industries for producing parts exposed to high temperatures. Certifications for specific industries ensure compliance with regulatory standards and enable the use of 3D printed parts in critical applications such as medical implants and aerospace components. Additionally, advanced materials like PPSU, PMMA, PPS, PVC, and POM offer unique properties suitable for specific applications ranging from chemical-resistant components to optical parts and structural elements.