INTAMSYS ABS+ Filament
$93.00
INTAMSYS ABS+ Filament is a high-quality 3D printing material specifically designed to meet the demands of industrial-grade applications. It is an advanced version of the traditional ABS (Acrylonitrile Butadiene Styrene) filament, enhanced with additional properties to improve its performance and reliability. ABS+ offers superior strength, durability, and heat resistance, making it suitable for producing functional prototypes, end-use parts, and various engineering components.
One notable characteristic of INTAMSYS ABS+ Filament is its excellent mechanical properties. It exhibits high tensile strength and impact resistance, allowing printed objects to withstand significant stress and external forces without compromising their structural integrity. Moreover, ABS+ offers good dimensional stability, minimizing the risk of warping or distortion during the printing process. This filament also has impressive thermal resistance, enabling it to withstand higher temperatures compared to standard ABS filaments. This property makes ABS+ suitable for applications that require exposure to heat or elevated temperatures. Whether you're manufacturing automotive parts, tooling components, or electronic enclosures, INTAMSYS ABS+ Filament provides a reliable and versatile solution for your industrial 3D printing needs.
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Features
Superior Strength
The ABS+ filament offers high tensile strength and impact resistance, ensuring robust and durable 3D printed objects.
Enhanced Heat Resistance
With improved thermal properties, ABS+ can withstand higher temperatures, making it suitable for applications requiring heat resistance.
Excellent Dimensional Stability
ABS+ filament minimizes the risk of warping or distortion during the printing process, ensuring accurate and precise prints.
Versatile Industrial Applications
Designed for industrial-grade applications, ABS+ filament is ideal for producing functional prototypes, end-use parts, and engineering components across various industries.
Specifications
Filament diameter
1.75 mm
Density
1.07 g/cm³
Flexural modulus
1406 MPa
Flexural strength
48.3 MPa
Glass transition temperature
114 °C
Heat deflection temperature (1.8 Mpa)
91 °C
Impact strength
32.0 kJ/m²
Tensile strength
29.5 MPa
Elongation at break
10.9%
Melt Volume Rate
10.0 cm³/10min
Young’s modulus
1847 MPa