3DXTech White PRO Series ABS Filament - 2.85mm (1kg)
3DXSTAT ESD-Flex TPU is an engineering-grade thermoplastic favored for its balance of excellent flexibility, ESD-Safety, ease of printing, chemical resistance, and toughness. This blend has been formulated to offer ESD-Safe electrical conductivity with a target surface resistance of 10^7 to 10^9 Ohm.
| Price: | $52.00 (with add-ons) |
|---|---|
| Availability: | In Stock |
| Order Now: | Ships Today Free U.S. Shipping |
BENEFITS OF 3DXSTAT ESD-FLEX TPU
- High elongation, over 300%
- Shore 95A semi-flex hardness
- Ease of printing compared to similar flexible materials
- Excellent layer bonding
- Outstanding fatigue resistance
- Very low odor while printing
- Low moisture absorption
- Retains flexibility even at low temperatures
- Styrene and BPA free
- Consistent surface resistivity
- Improved retention of impact & elongation
- Low particulate contamination
- Minimal contribution to outgassing and ionic contamination
WHAT APPLICATIONS IS 3DXSTAT BLACK ESD-FLEX SUITABLE FOR?
- Semi-con: HDD Components, Wafer Handling, Jigs, Casings, & Connectors
- Industrial: Conveying, Metering, and Sensing Applications
WHAT IS THE TARGET CONDUCTIVITY FOR 3DXSTAT ESD-FLEX?
- 10^7 to 10^9 ohm surface resistivity on 3DP sample using concentric ring test method.
- Note: Internal studies have indicated that increased extruder temperatures can achieve higher levels of conductivity. Likewise, lower extruder temperatures have resulted in lower levels of conductivity. Each printer is set-up differently, not to mention varied part geometry. Therefore, expect some trial time to understand how ESD Flex filament works in your specific printer and application.
Surface Conductivity as a Function of Extruder Temperature:
- The surface resistance of the printed ESD Flex part will vary depending on the printer’s extruder temperature. For example, if your testing indicates the part is too insulative, then increasing the extruder temperature will result in improved conductivity. Therefore, the surface resistance can be ‘dialed-in’ by adjusting the extruder temperature up or down depending on the reading you receive on your part.
TECHNICAL SPECIFICATIONS:
- Filament Specifications: 1.75mm and 2.85mm +/- 0.05mm in diameter1.75mm and 2.85mm +/- 0.05mm in diameter
- Extruder: 220-240°C
- Bed Temp: 40-60°C
- Bed Prep:Magigoo
- Heated Chamber: Not required
- Drying Instructions: 65°C for 4 hours.
Questions
What is the mechanical properties of this ABS like Elasticity Modulue and poissons ratio and density?
What are dimensions of reel. Will it fit in the Ultimaker material handler?
What would cause layer separation? Print temp 250 C Bed temp 90 C (max of my printer) Speed 60 mms Cooling ON
What are the mixing proportions of the ABS?
All I can add is that I'm testing my luck with a CR6Max. Here's the trick to adhesion... ---- I maxed out the OEM settings at 260/90 and run my 1st layer SLOW. As in 10 slow. ---- Only using glue on a glass bed and after the 1st layer adheres she's running. Benchy came out 9.5/10 first attempt, first ABS print ever.
Is it food, microwave and dishwasher safe?
Why is this filament so difficult to print with? I'm running a heated enclosure @ 45C, printing at 235C, with a heated bed of 110C. Printing small 1-2 inch parts on a level/clean bed with proper first layer leveling and I'm getting absolutely awful warping that ruins the prints. So far I can't see anything PRO about this filament.
Hey! I just wanted to see if you had any pictures comparing this (MH Pro Series Purple) compared to the Build Series Purple. The Pro looks a bit more matte and lighter in hue than the Build--something I've been looking for!
My build recommends esun pla+, or esun abs, I am looking for maximum shock/impact resistance, with maximum layer adhesion, not concerned with cost of filament, in other words not looking for the bargain filament on this build. My question is the pro series better than esun filament?