Compare 3D Printing Materials

PLA is a high-quality, high-performance, and cost-effective 3D printing material, offering excellent layer adhesion and impact resistance, resulting in durable and long-lasting prints. The base series comes in up to 30 colors, ensuring uniform color consistency and stable printing quality. PLA is made from renewable plant-based resources, eco-friendly, non-toxic, and biodegradable. It is reliable, easy to use, and provides high cost-performance with a wide range of colors, making it an ideal choice for home, education, and industrial printing.

PLA, matériau d’impression 3D de haute qualité, haute performance et économique, offrant une excellente adhésion entre les couches et une bonne résistance aux impacts, ce qui garantit des pièces durables et fiables. La série de base propose jusqu’à 30 couleurs, assurant une uniformité chromatique et une qualité d’impression stable. Issu de ressources végétales renouvelables, PLA est écologique, non toxique et biodégradable. Fiable, facile à utiliser et doté d’un excellent rapport qualité-prix, avec un large choix de couleurs, il constitue un choix idéal pour l’impression domestique, éducative et industrielle.

PLA, material de impresión 3D de alta calidad, alto rendimiento y bajo costo, que ofrece una excelente adhesión entre capas y buena resistencia al impacto, lo que resulta en piezas duraderas y resistentes. La serie básica incluye hasta 30 colores, garantizando uniformidad cromática y una calidad de impresión estable. Fabricado a partir de recursos vegetales renovables, PLA es ecológico, no tóxico y biodegradable. Confiable, fácil de usar y con una excelente relación calidad-precio, además de una amplia variedad de colores, es una opción ideal para la impresión en el hogar, la educación y la industria.

ABS-like material is a durable and versatile prototyping material suitable for producing both functional and aesthetic parts. Its front surface is smooth, while the side walls and bottom have a matte finish, giving parts an appearance similar to injection-molded components. The material offers good dimensional stability, moisture resistance, and is easy to post-process, making it ideal for rapid prototyping and functional testing.It is usually available in black and white.

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.

3D printed titanium alloys, represented by Ti6Al4V, feature extremely high specific strength and excellent corrosion resistance, while being lightweight and tough. They enable the creation of complex geometries and topology-optimized designs through additive manufacturing, and are widely used in aerospace, medical implants, automotive, and high-performance sports equipment. Titanium alloys also offer good high-temperature performance and biocompatibility, making them an ideal choice for manufacturing high-performance, lightweight components.
Disadvantages: Poor heat resistance (maximum 120°C); surface roughness around Ra10, with slight pits and visible layer texture.

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.