MatterHackers Magenta MH Build Series ABS Filament - 1.75mm (1kg)
MH Build Series Magenta ABS is an affordable ABS filament intended for producing quality 3D-printed parts that require strength and high temperature resistance.
- Best-selling Magenta ABS at MatterHackers
- Available in a wide variety of colors
- Bulk pricing available - save more with each spool purchased
- Combatable with Bambu AMS
- As low as $21.83!
| List Price: | $25.99 |
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| Price: | $25.99 |
| Price: | $... |
| Availability: | In Stock |
| Order Now: | Ships Tomorrow |
MH Build Series ABS Filament
The #1 Selling ABS Filament at MatterHackers!
MH Build Series ABS is the best-selling ABS at MatterHackers, making it the top choice for anyone looking to create durable, high-temperature-resistant parts affordably.
Here are the top features of MH Build Series ABS:
- Affordable - priced right for every user
- Great for parts and projects that require strength and temperature resistance
- Bulk pricing options - the more you buy, the more you save per spool
- Tons of bold, unique colors to choose from - view them all here
- MH Build Series is also available in PLA, PETG, and TPU
Tons of Colors to Choose From
MH Build Series ABS comes in a wide variety of colors to meet all your project needs.
Low Prices - Even Lower with Bulk Pricing!
MH Build Series ABS filament is the most affordable material on the market that is still reliable and capable of producing high-quality results.
- Lowest prices for quality parts
- Bulk pricing available - the more you buy, the more you save per spool
- Great for batch production and end-use parts
Great for Durable 3D Printed Parts
If you are 3D printing parts that require strength, MH Build Series ABS is an excellent option because it's durable and high temperature-resistant.
- ABS is a top choice for when you need strong parts
- ABS filament is resistant to high temperatures
- Resistant to a variety of chemicals
What is ABS Filament?
ABS (Acrylonitrile Butadiene Styrene) is a thermoplastic polymer that's used in a wide variety of industries and applications, including things like car bumper covers and LEGO. It is commonly used as a 3D printing filament for a variety of reasons, including:
- It has a higher melting point compared to other common materials
- High-temp and chemical-resistant properties
- Durable and robust
Technical Specifications
Printer Settings:
- Extruder Temperature: 230±10 °C
- Bed Temperature: 90±10 °C
- Learn more about how to succeed with ABS here
Spool/Filament Dimensions:
- 200mm Total Diameter (approximately)
- 50mm Inner Hole Diameter (approximately)
- 65mm Height (approximately)
- 1 kg spool
- True Diameter: 1.75mm or 2.85mm
- Dimensional Accuracy: ±0.03mm
- Density: 1.25 g/cm³
- Volume: 0.80 L
- Length: 332.60 m
Technical Data Sheets:
Click here to view all MH Build Series ABS size and color options.
Questions
Could this filament be used as a main filament rather than just for support material? I am looking to make a design that will dissolve in water and is non-toxic. What are the temperature ranges where it will remain solid? How long does it take to dissolve in water?
@Will Cortez You need enough water (preferably warm) for the printed part to submerge. The degree of hydrolysis is 87% to 89%.
Does Matterhackers have information on the dissolution rate of the PVA filament? or how much water is required to dissolve a known mass of PVA? In addition, is there any information available about the hydrolysis level of the PVA material? Thanks!
I've had a heck of a time getting this stuff specifically to print and to dissolve. I've had customers say they used buckets of water overnight, or high temp water from a tap, all kinds of stuff. And for it to print I have to have it turned up to 240 or it won't feed. Has anyone else experienced this?
One thing I like to do (because it absorbs exponential amount of water while printing) is dry it for 2 hours like it says on the card that came with the filament and immediately load the filament into the printer and start printing right away(they say not to do this), this action ensures the filament won't snap while the tight feeder is squeezing it and be easy melt with low humidity for MOST of the print depending on length. For melting I print with almost 1mm thick interfaces and if they dont/can't break away I have to do the warm water soak in a small bucket for at LEAST 24-48 hrs because it's a slow melt, all the while replacing the cold water with warm about 2-3 times, it WILL melt, it's just slow about it. Hope this helps 🙏