Bambu Lab ASA
$29.99
Bambu ASA is a highly durable material that offers exceptional UV, weather, mechanical, and thermal resistance. Its unique combination of properties makes it an ideal material for printing outdoor models (plant signs, mailboxes, wind vanes, etc.) and structural parts that require long-term exposure to challenging outdoor conditions.
*Shipping Time: 1-2 Weeks*
Product Details
Specifications
Features:
- Extraordinary UV Resistance
- Exceptional Temperature Resistance
- High Impact Strength and Durability
- Outdoor Use for Long-Term Purpose
- AMS Compatible
- Enclosure Printers Required
Extraordinary Weather & UV Resistance
Bambu ASA offers extraordinary UV, oxidation, and aging resistance, providing effective protection against breakage and color degradation when used outdoors for long-term purposes.
Bambu ASA offers extraordinary UV, oxidation, and aging resistance, providing effective protection against breakage and color degradation when used outdoors for long-term purposes.
Tough and Durable
Suitable for outdoor applications and regular structural requirements due to its toughness and high impact strength.
Suitable for outdoor applications and regular structural requirements due to its toughness and high impact strength.
Better Temperature Resistance
Compared to normal PETG or ABS, Bambu ASA can remain in shape even at a temperature of 100 degrees.
Compared to normal PETG or ABS, Bambu ASA can remain in shape even at a temperature of 100 degrees.
Bambu Lab ASA
- Drying Settings (Blast Drying Oven):80 °C,8 h
- Printing and Keeping Container's Humidity:Less than 20% RH (Sealed, with Desiccant)
- Nozzle Temperature:240 - 270 °C
- Bed Temperature (with Glue):80 - 100 °C
- Printing Speed:Less than 250 mm/s
- Density:1.05 g/cm³
- Vicar Softening Temperature:106 °C
- Heat Deflection Temperature:100 °C
- Melting Temperature:210 °C
- Melt Index:7.0 ± 0.8 g/10 min
- Tensile Strength:37 ± 3 MPa
- Breaking Elongation Rate:9.2 ± 1.4 %
- Bending Modulus:1920 ± 130 MPa
- Bending Strength:65 ± 5 MPa
- Impact Strength:41.0 ± 2.3 kJ/m²