ABS-M30 is 25-75% stronger than the standard ABS material, with higher durability, ideal for realistic functional tests. This material results in smoother parts with finer feature details. ABS-M30 is opaque and is available in several color options. Ideal applications, similar to those of ABS, include end-use components, jigs and fixtures, concept modeling, and testing for form, fit and function.

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Technical Specifications

Standard lead time Minimum of 5 working days
Standard accuracy ± 0.15% (with lower limit on ± 0.2 mm)
Minimum wall thickness 1 mm
Layer thickness 0.18 - 0.25 mm
Maximum part dimensions Dimensions are unlimited as components may be composed of several sub-parts. The maximum build envelope is 914 x 610 x 914 mm
Surface structure Unfinished parts typically have a rough surface but all kinds of fine finishes are possible. FDM parts can be sandblasted, smoothed, colored/impregnated, painted and coated.

Datasheet

  Units ASTM# Range
Density g/cm³     1.04
Tensile Strength MPa  D638   36
Tensile Modulus MPa  D638   2413
Flexural Strength MPa  D790   61
Flexural Modulus MPa  D790  2317
Notched Izod Impact J/m  D256  139
Unnotched Izod Impact J/m  D256  283
Heat Deflection Temp °C D648  at 0.45 MPa: 86
at 1.81 MPa: 82
Elongation at Break     4
Color     Ivory, White, Black, Dark Grey, Red, Blue

Actual values may vary with build condition

Design Guidelines

We’ve put together our trusted tips, tricks and best practices to get you off to a solid start. If you’ve been wondering whether this material allows for interlocking parts or embossing, or if you just want to avoid common design mistakes, check out this handy design guide.

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How Does Fused Deposition Modeling Work?

FDM is a filament-based technology where a temperature-controlled head extrudes a thermoplastic material layer by layer onto a build platform. A support structure is created where needed and built in a water-soluble material.

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