Nylon 3D printing
A material that offers superior strength and durability for applications where precision and reliable performance are essential
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6 different nylons 3D printed, each with its own unique characteristics and advantages
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Nylon PA12 carbon fiber Copy
Top Versatile and low cost; the best seller
Pros
- From 1 to 10.000 pieces in 3 days
- Good chemical resistance
- Real injection molding competitor
- Parts are 100% solid and constructed without supports
- UL-certified
Cons
- Limitations related to high thicknesses or too massive parts
- Parts with wide flat surfaces can warp
Main Features
- 3D printing process: MJF
- Tolerances: ±0,30mm < 100mm ; ±0,3% > 100mm
- Max size: 380 x 284 x 380 mm ; 15 x 11.2 x 15 in
Nylon PA12 carbon fiber
Top Versatile and low cost; the best seller
Pros
- From 1 to 10.000 pieces in 3 days
- Good chemical resistance
- Real injection molding competitor
- Parts are 100% solid and constructed without supports
- UL-certified
Cons
- Limitations related to high thicknesses or too massive parts
- Parts with wide flat surfaces can warp
Main Features
- 3D printing process: MJF
- Tolerances: ±0,30mm < 100mm ; ±0,3% > 100mm
- Max size: 380 x 284 x 380 mm ; 15 x 11.2 x 15 in
How MJF is compared to other 3D Printing technologies?
Tensile breaking load
Modulus of elasticity
Elongation at break
Flexural modulus
HDT 0.45 MPa
Izod impact resistance
Nylon PA12
52 MPa
2 GPa
15 %
1730
175 °C
3,5 kJ/m2
Nylon PA12
52 MPa
2 GPa
15 %
1730
175 °C
3,5 kJ/m2
Nylon PA12
52 MPa
2 GPa
15 %
1730
175 °C
3,5 kJ/m2
Nylon PA12
52 MPa
2 GPa
15 %
1730
175 °C
3,5 kJ/m2
Nylon PA12
52 MPa
2 GPa
15 %
1730
175 °C
3,5 kJ/m2
Features
HDT 0.45 MPa
Izod impact resistance
General inquiries? Questions about engineering? Do you seek support with your design?
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