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Mechanical properties

Impact strength

0 KJ/m² - 10 KJ/m²

Elongation at break

0 % - 20 %

Tensile strength

20 MPa - 100 MPa

Tensile modulus

900 MPa - 10600 MPa

Flexural modulus

1850 MPa - 11200 MPa

Surface hardness

0 - 10

Thermal properties

Softening temperature

70 ºC - 300 ºC

Highlighted feature

High temperature

High temperature resins print parts that maintain structural integrity and dimensional stability at extreme temperatures, making them ideal for aerospace, industrial and automotive applications.

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High-temperature resins are a specialized category of 3D printing materials engineered to withstand elevated temperatures, making them ideal for applications requiring thermal stability and durability. These resins are formulated to maintain their mechanical properties and dimensional stability even when exposed to extreme heat, enabling the production of parts for demanding environments such as aerospace, automotive, and industrial settings. They stand out especially in the manufacture of plastic injection molds for compact or benchtop injection systems.

Within the realm of high-temperature resins, various formulations offer distinct advantages tailored to specific application requirements. Some resins exhibit exceptional heat resistance, allowing them to withstand temperatures exceeding 200°C without significant degradation. This makes them suitable for applications where parts are subjected to prolonged exposure to high temperatures, such as under-the-hood components in automotive engines or aerospace components exposed to jet engine exhaust.

Furthermore, high-temperature resins may possess other desirable properties, such as chemical resistance, flame retardancy, and low outgassing, further expanding their applicability in challenging environments. Industries reliant on high-performance materials for critical applications, such as aerospace, defense, and industrial manufacturing, rely on these resins to produce components that meet stringent performance and safety standards. By harnessing the capabilities of high-temperature resins, manufacturers can create parts that excel in extreme conditions, ensuring reliability and longevity in demanding operational environments.