Simulated ABS Material
Digital ABS Plus™ is designed to simulate standard ABS plastics by combining high-temperature resistance with toughness.
Suitable for parts that require PolyJet™ technology’s highest possible impact resistance and shock absorption, Digital ABS Plus significantly improves the mechanical performance of parts and prototypes for design verification and functional performance testing.
Digital ABS Plus is ideal for rapid prototyping snap-fit parts for high or low temperature use, functional designs with multi-material versatility and flexibility, injection molds, manufacturing tools, electrical parts and more.
Digital ABS Plus Material Profile
Learn more about the benefits of rubber-like PolyJet 3D printed parts
Learn how Digital ABS Plus is able to get better impact strength with high-temperature resistance, toughness and superior finish.
PolyJet technology creates precise prototypes that set the standard for finished-product realism.
Main Uses
Ideal for rapid prototyping snap-fit parts for high or low temperature use, functional designs with multi-material versatility and flexibility, injection molds, manufacturing tools, electrical parts and more.
Digital ABS Plus Material Applications
Functional Prototyping
Manufacturing Tools
Molds, including injection molds
Snap-fit parts for high or low temperature use
Electrical parts, casings, mobile phone casings
Engine parts and covers
Digital ABS Plus Material Specification
Properties and testing results for the 3D printing material
| MECHANICAL PROPERTIES | TEST METHOD | IMPERIAL | IMPERIAL METRIC |
|---|---|---|---|
| Tensile Strength | D-638-03 | 8,000-8,700 psi | 55-60 MPa |
| Elongation at Break | D-638-05 | 25-40% | 25-40% |
| Modulus of Elasticity | D-638-04 | 375,000-435,000 psi | 2,600-3,000 MPa |
| Flexural Strength | D-790-03 | 9,500-11,000 psi | 65-75 MPa |
| Flexural Modulus | D-790-04 | 245,000-320,000 psi | 1,700-2,200 MPa |
| HDT, ºC @ 0.45MPa | D-648-06 | 136-154 °F | 58-68 °C |
| HDT, ºC @ 0.45MPa after thermal post treatment procedure A | D-648-06 | 180-194 °F | 82-90 °C |
| HDT, ºC @ 0.45MPa after thermal post treatment procedure B | D-648-06 | 198-203 °F | 92-95 °C |
| HDT, ºC @ 1.82MPa | D-648-07 | 124-131 °F | 51-55 °C |
| Izod Notched Impact | D-256-06 | 1.69-2.15 ft lb/in | 90-115 J/m |
| Tg | DMA, E» | 117-127 °F | 47-53 °C |
| Shore Hardness (D) | Scale D | 85-87 Scale D | 85-87 Scale D |
| Rockwell Hardness | Scale M | 67-69 Scale M | 67-69 Scale M |
| Polymerized Density | ASTM D792 | 1.17-1.18 g/cm |
Advantages of PolyJet Technology
Advantages of parts built with a Stratasys PolyJet Machine
Realistic Parts
Stratasys PolyJet 3D Printers are based on proven technology, which creates precise prototypes that set the standard for finished-product realism.
Their fine resolution makes complex shapes, intricate details and smooth surfaces possible.
Precise Models
PolyJet 3D Printing works by jetting layers of liquid photopolymer onto a build tray and instantly curing them with UV light.
The fine layers build up to create a precise 3D model or prototype. Models are ready to handle right out of the 3D printer, with no post-curing needed.
