Compare 3D Printing Materials
Explore and compare 3D printing materials to find the best fit for your project. From durable plastics to flexible resins, our guide highlights key properties like strength, flexibility, and surface finish, helping you choose the right material for prototyping, production, or custom parts.
Ceramic-Like
Process: SLA
Heat Resistance, Strength, Stiffness
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.
Stainless Steel 17-4PH
Process: SLM
Corrosion Resistance, HighStrength, Wear Resistant
17-4 PH stainless steel is a precipitation-hardening stainless steel known for its excellent hardness and corrosion resistance. Through vacuum solution heat treatment and H900 aging treatment, printed parts can achieve high strength, high hardness, and good wear resistance. 17-4 PH stainless steel is suitable for manufacturing industrial components that require high strength, corrosion resistance, and complex structures, such as aerospace parts, molds, and high-load machinery.
Disadvantages: Low elongation (≤16% after heat treatment); weak magnetism after heat treatment.
