Compare 3D Printing Materials

Flame-retardant resin is a high-performance material formulated with specialized additives to significantly reduce flammability and slow down flame propagation. While maintaining excellent mechanical strength and processability, it meets stringent fire safety standards. Ideal for electronics enclosures, aerospace components, transportation parts, and other applications requiring superior fire resistance, this resin enables precise 3D printing of complex geometries while ensuring reliable performance under high temperatures and flame exposure.

The high-temperature reinforced ceramic white combines exceptional heat resistance with outstanding strength and stiffness, making it an ideal choice for functional parts and high-performance prototypes. Post-curing further enhances its mechanical properties and thermal stability, providing reliable performance for complex geometries. Whether for aerospace, precision molds, electronic insulators, or laboratory equipment, this ceramic material meets the highest standards under demanding conditions, delivering solid support for innovative designs and high-performance manufacturing.

3D printed aluminum alloys, represented by AlSi10Mg and other aluminum-silicon-magnesium alloys, combine lightweight characteristics with excellent mechanical properties. They offer an outstanding strength-to-weight ratio, good corrosion resistance, and thermal conductivity, and demonstrate excellent fatigue and fracture resistance after heat treatment. The material is easy to form, weld, and machine, making it ideal for aerospace, automotive, and tooling applications where lightweight design and structural complexity are critical. Finished parts are typically shot-peened for surface treatment. If you require any other post-processing, please inform our customer service clearly.
Disadvantages: Poor heat resistance (maximum 120°C); surface roughness around Ra10, with slight pits and visible layer texture.