INTAMSYS ULTEM™ 1010 Filament
Experience the exceptional quality of INTAMSYS ULTEM 1010 Filament, a revolutionary material designed to revolutionize your 3D printing projects. Crafted from ULTEM 1010 resin, this filament offers unmatched thermal and mechanical properties, making it a go-to choice for demanding applications across various industries. With an impressive heat resistance of up to 216°C (420°F), this filament ensures outstanding dimensional stability, allowing you to create parts that can withstand extreme temperatures without compromising performance.
But it doesn't stop there. INTAMSYS ULTEM 1010 Filament delivers exceptional strength and durability, making it perfect for manufacturing functional prototypes, jigs, fixtures, and end-use parts. Its superior chemical resistance enables it to withstand exposure to a wide range of chemicals, including automotive fluids, oils, and industrial solvents. With inherent flame-retardant properties, this filament prioritizes safety in addition to its outstanding performance. Elevate your 3D printing endeavors with INTAMSYS ULTEM 1010 Filament and unlock a world of possibilities in industries such as aerospace, automotive, and engineering.
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Features
Exceptional Heat Resistance
With a high heat resistance of up to 216°C (420°F), this filament can withstand extreme temperatures without compromising performance.
Superior Strength and Durability
ULTEM 1010 Filament offers outstanding mechanical properties, ensuring strength and durability for functional prototypes and end-use parts.
Excellent Chemical Resistance
This filament exhibits superior resistance to a wide range of chemicals, including automotive fluids, oils, and industrial solvents.
Inherent Flame Retardancy
With built-in flame-retardant properties, INTAMSYS ULTEM 1010 Filament prioritizes safety in applications where fire resistance is crucial.
Specifications
Filament diameter
1.75 mm
Available colors
Natural
Density
1.27 g/cm³
Elongation at break
3.3%
Extruder temperature
340–360 °C
Flexural modulus
3,197 MPa
Flexural strength
126 MPa
Glass transition temperature
215 °C
Heat deflection temperature (1.8 Mpa)
190 °C
Impact strength
4.9 kJ/m²
Print bed temperature
130–160 °C
Support material
SP5080
Tensile strength
90 MPa
Young’s modulus
3,427 MPa