Filters

Finish effect

No choice available on this group

Density

0 g/cm³ - 2 g/cm³

Print properties

Printing temperature

0 ºC - 320 ºC

Print bed temperature

0 ºC - 180 ºC

Mechanical properties

Impact strength

0 KJ/m² - 10 KJ/m²

Elongation at break

0 % - 10 %

Tensile strength

0 MPa - 20 MPa

Tensile modulus

0 MPa - 1590 MPa

Flexural strength

0 MPa - 40 MPa

Flexural modulus

0 MPa - 3500 MPa

Surface hardness (scale)

0 - 7

Thermal properties

Softening temperature (ºC)

0 ºC - 120 ºC

Highlighted features

Support / Solubles

Print parts with complex geometries using soluble or easily removable materials using a dual extruder printer or compatible multi-material system. Compatible with multiple materials and different solvents.

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About support/soluble materials

Breakaway and soluble support materials are essential components in the realm of 3D printing, providing crucial support structures for complex geometries or features such as overhangs and bridges during the printing process. These support materials come in various variants, including HiPS, PVA, BVOH, as well as support filaments soluble in chemical solvents or water. Additionally, there are specialized support materials tailored for specific polymers, high-temperature applications, sinterable filaments, high-speed printing, fiber-reinforced filaments, and more. The diverse range of support materials available allows users to select the most suitable option based on their printing requirements and desired outcomes.

Considerations

The most effective and convenient way to work with support filaments is with an FDM 3D printers with dual extrusion capabilities. The choice between soluble versus breakaway support filaments depends on several factors such as print complexity, material compatibility, post-processing capabilities, and desired finish quality. Soluble materials are advantageous for complex geometries and intricate designs (cavities, fragile details). The compatibility of the main material with the support filament (printing temperature, mutual adhesion) is as important as the possibility to safely submerge the main part in chemical solvents or water for support dissolution. While breakaway supports are fairly easy to remove with pliers or manually, they may leave behind rough surfaces that require post-processing by polishing or smoothing. Soluble supports, on the other hand, require solvents and ultrasonic baths. 

Applications

Breakaway and soluble support materials find widespread applications across various industries and disciplines where complex geometries and intricate designs are required. In product development and prototyping, these materials enable the production of functional prototypes, architectural models, and engineering components with intricate details and overhangs. In the medical and dental fields, soluble support materials are used for producing patient-specific implants, surgical guides, and anatomical models with precise geometries and internal structures. Additionally, soluble support materials are valued in the aerospace and automotive industries for creating lightweight yet robust components and assemblies with complex geometries.