Nederlands (Nederland)3DXTECH THERMAX™ HTS High Temp Support 1.75mm 250g
Item No.210000003927
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ThermaX™ HTS [High Temperature Support] break away support is ideal for printing high-temperature polymers including PSU, PES, PPSU, PPS, Ultem™ PEI, PEKK, and PEEK. This support adheres well to these advanced materials and then is broken away after printing to allow for complex geometry without dam
Price €45
price per Piece
excl. tax
Available on backorder
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This product cannot be ordered at the moment.
Description
ThermaX™ HTS [High Temperature Support] break away support is ideal for printing high-temperature polymers including PSU, PES, PPSU, PPS, Ultem™ PEI, PEKK, and PEEK. This support adheres well to these advanced materials and then is broken away after printing to allow for complex geometry without damaging your part.
Specifications
- Brand
- 3DXTech
- Article no. manufacturer
- SUP1010250NAT
- Filament diameter
- 1.75mm
- Density
- 0 g/cc
- Tensile strength
- 0 MPa
- Tensile modulus
- 0 MPa
- Elongation at break
- 0 %
- Flexural strength
- 0 MPa
- Flexural modules
- 0 MPa
- Izod impact (notched)
- 0 J/m
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3DXTECH THERMAX™ HTS High Temp Support 1.75mm 250g
Item No.210000003927
ThermaX™ HTS [High Temperature Support] break away support is ideal for printing high-temperature polymers including PSU, PES, PPSU, PPS, Ultem™ PEI, PEKK, and PEEK. This support adheres well to these advanced materials and then is broken away after printing to allow for complex geometry without dam
Price €45
price per Piece
excl. tax
Available on backorder
Loading
This product cannot be ordered at the moment.
Description
ThermaX™ HTS [High Temperature Support] break away support is ideal for printing high-temperature polymers including PSU, PES, PPSU, PPS, Ultem™ PEI, PEKK, and PEEK. This support adheres well to these advanced materials and then is broken away after printing to allow for complex geometry without damaging your part.
Specifications
- Brand
- 3DXTech
- Article no. manufacturer
- SUP1010250NAT
- Filament diameter
- 1.75mm
- Density
- 0 g/cc
- Tensile strength
- 0 MPa
- Tensile modulus
- 0 MPa
- Elongation at break
- 0 %
- Flexural strength
- 0 MPa
- Flexural modules
- 0 MPa
- Izod impact (notched)
- 0 J/m