Thermal Testing Material
High Temperature offers the highest heat deflection of any standalone PolyJet™ 3D printing material, ideal for thermal testing prototypes that require high heat resistance.
High Temperature also offers excellent surface quality, strength and stiffness, simulating the thermal performance and strength of engineering plastics.

High Temperature (RGD525) Material Profile
Learn more about the benefits of PolyJet printed parts
PolyJet is a powerful 3D printing technology that produces smooth, accurate parts, prototypes and tooling.
With microscopic layer resolution and accuracy down to 0.1 mm, it can produce thin walls and complex geometries using the widest range of materials available with any technology.

Main Uses
With a heat deflection temperature of 80 °C after thermal treatment, High Temperature is ideal for testing static parts and hot-air flow or hot-water flow in pipes and faucets.
High Temperature (RGD525) Material Applications
Form, fit and thermal functional testing of static parts
Heat resistant jigs and fixtures
Hot water applications, faucets, fittings etc.
Heat resistant manufacturing Aids
High Temperature (RGD525) Material Specification
Properties and testing results for the 3D printing material
PROPERTIES | ASTM | METRIC | IMPERIAL |
---|---|---|---|
Tensile strength | D-638-03 | 70-80 MPa | 10,000-11,500 psi |
Elongation at break | D-638-05 | 10-15% | 10-15% |
Modulus of elasticity | D-638-04 | 3,200-3,500 MPa | 465,000-510,000 psi |
Flexural Strength | D-790-03 | 110-130 MPa | 16,000-19,000 psi |
Flexural Modulus | D-790-04 | 3,100-3,500 MPa | 450,000-510,000 psi |
HDT, °C @ 0.45 MPa | D-648-06 | 63-67 °C | 145-163 °F |
HDT, °C @ 0.45 MPa after thermal post treatment procedure A | D-648-06 | 75-80 °C | 167-176 °F |
HDT, °C @ 1.82MPa | D-648-07 | 55-57 °C | 131-135 °F |
Izod Notched Impact | D-256-06 | 14-16 J/m | 0.262-0.300 ft lb/inch |
Water Absorption, % | D-570-98 24hr | 1.2-1.4% | 1.2-1.4% |
Tg | DMA, E» | 62-65 °C | 144-149 °F |
Shore Hardness D | Scale D | 87-88 Scale D | 87-88 87-88 Scale D |
Rockwell Hardness | Scale M | 78-83 Scale M | 78-83 87-88 Scale m |
Polymerized density | ASTM D792 | 1.17-1.18 g/cm3 | |
Ash content | USP281 | 0.38-0.42% | 0.38-0.42 |
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.