THERMAX PEI ULTEM 1010 [CERTIFIED]

SKU: 3D3007-1010-NAT175-250
₹ 5,499.00

Color

Diameter

1.75mm 2.85mm

Weight

250gms 500gms 1000gms

THERMAX PEI ULTEM 1010 [CERTIFIED]

SKU: 3D3007-1010-NAT175-250
₹ 5,499.00

Inclusive of 18% GST

Color

Diameter

1.75mm 2.85mm

Weight

250gms 500gms 1000gms

Products will be delivered between 1 and 5.

Description Reviews

ThermaX™ PEI 1010 is an ultra-performance filament made using ULTEM™ 1010 resin from Sabic. This material boasts some of the highest performance in the industry with excellent mechanical, thermal, and chemical resistance properties.

We manufacture this ultra-performance 3D printing filament using ULTEM 1010 PEI (polyetherimide) resin from Sabic. Filaments made from ULTEM 1010 resin offer the ability to create parts with excellent properties at elevated temperatures due to a high glass transition temperature (Tg) of 217°C.

PEI is an amorphous, high-performance polymer that combines excellent thermal properties, exceptional dimensional stability, inherent flame retardancy, and good chemical resistance.

Benefits of ULTEM 1010 PEI Include:

  • High thermal properties, with a Tg of 217°C
  • Inherently flame-resistant
  • Long-term hydrolytic stability
  • Excellent dimensional stability, low heat creep sensitivity, and a very low, uniform coefficient of thermal expansion creates highly reproducible part-to-part dimensions
  • Exceptional strength and modulus, even at elevated temperatures
  • Good resistance to a broad range of chemicals include automotive fluids, fully halogenated hydrocarbons, alcohols, and aqueous solutions
  • Stable dielectric constant and dissipation factor over a wide range of temperatures and frequencies

This product contains 250 grams of filament. 
2.85mm, 500gms, and 1KG Available on order only. (Lead time: <7 days)

ULTEM 1010 PEI Applications
  • Aerospace: The excellent balance of flame retardancy, low smoke emission, and low smoke toxicity of ULTEM™ 1010 makes it an excellent candidate for aerospace and aircraft applications. ULTEM 1010 meets FAR 25.853 and OSU 65/65 with low toxicity, smoke, and flame evolution. Ultem™ resins are found in applications such as personal service units, oxygen panels and components, ventilation system components, connectors, cable ducts, latches, hinges, food tray containers, door handles, and interior cladding parts.
  • Automotive & Transportation: ULTEM™ resins provide automotive manufacturers with a high-performance, chemically resistant, thermally-stable, cost-effective alternative to metal that is strong enough to replace steel in some applications yet light enough to replace aluminum in others. For applications like transmission components, throttle bodies, ignition components, sensors, and thermostat housings.
  • Electronics: ULTEM™ resin may be an excellent material choice for today’s demanding electrical applications, including connectors, MCB components like housings, shafts and levers, hard disk drive internals, FOUPs, BiTS, PCBs, MCCB internals, Plenum devices, LCD projector internals, fuel cell components, and many other applications.
Specifications

1.75mm and 2.85mm +/- 0.05mm in diameter

Recommended Print Settings:

  • Extruder: 370-390°C
  • Bed Temp: 120-160°C
  • Bed Prep: Nano Polymer Adhesive or 3DXTECH Polyimide Tape gives us the best results
  • Other: No cooling fan with print speeds of 20mm/s as a starting point
  • Heated Chamber: Recommended, a chamber helps reduce warping and improves layer adhesion
  • Supports: ThermaX HTS High-Temp Support works ideal for complex, high-temp materials just like this.
  • Drying Instructions: 120°C for 4 hours.

Annealing 3D Printed Parts:

If needed, parts printed using ULTEM™ may be annealed in a hot-air oven to reduce any printed-in stresses which may be present in the part. Printed-in stresses may occur in any plastic and may result in lower than expected mechanical properties. If this is an issue with your part, you can follow the simple 5-step ramp up/down process for annealing the ULTEM™ parts.

  • Step 1: Place printed parts in a cool, room-temp oven.
  • Step 2. Set temp to 300°F and allow to stabilize for 1 hour.
  • Step 3: After 1 hour at 300°F, increase oven temp to 400°F and allow to stabilize 1 additional hour.
  • Step 4: After 1 hour at 400°F, reduce heat back to 300°F and allow to stabilize for 30 minutes.
  • Step 5: After 30 minutes, turn off oven heat and allow printed parts to return to room temp inside the oven as it cools.
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