3D printing services

Material tolerance:±0.3mm or within 0.4%

High strength, good toughness, better temperature resistance than PLA (approx. 70-90°C); however, a heated bed is required during printing (to prevent warping), and trace VOCs are released (ventilation is recommended)

high toughness (impact-resistant), good weather resistance (UV-protective), chemical corrosion resistance (food-contact safe), and no obvious warping

(Shore hardness: 50A-95A), wear-resistant, oil-resistant; temperature control is required during printing to avoid stringing

High strength, high rigidity, good temperature resistance (PA6: approx. 120°C heat resistance); however, it has high hygroscopicity (drying is required before printing), making it suitable for load-bearing parts

SLA technology cures liquid resin via UV irradiation to form parts, with precision up to 0.01mm and low surface roughness (Ra < 1μm). It is suitable for fine prototypes and appearance parts, with materials supplied in "liquid resin" form.

A high-performance engineering plastic with temperature resistance up to 250°C or higher, resistance to strong acids/alkalis and radiation, and strength close to that of metals. It requires high-temperature FDM or SLS (Selective Laser Sintering) for printing and is used in aerospace parts, medical implants (e.g., bone scaffolds), and petrochemical equipment accessories.

Performance is close to PEEK, but it has better formability and slightly lower cost. It is often used in lightweight aerospace structural parts and high-end medical equipment.

Good toughness, chemical corrosion resistance, and food-contact safety; however, its high shrinkage rate (prone to warping) requires specialized FDM equipment (e.g., heated enclosed chambers). It is used in food packaging and chemical container prototypes.