• FDM 3D printer

    Maximum print size: 280*255*280 mm

    • Uses tungsten steel nozzle
    • Wear-resistant and high-temperature resistant
    • Uses negative pressure adsorption
    • Printing temperature up to 540°C
    • Controllable maximum temperature of the constant temperature chamber: 160°C ± 2°C
    • Positioning accuracy: ±0.02 mm
    • Printing accuracy: ±0.05 mm
    Maximum print size: 280*255*280 mm

  • FDM 3D printer

    Maximum print size: 450*350*580 mm

    • Uses tungsten steel nozzle
    • Wear-resistant and high-temperature resistant
    • Uses negative pressure adsorption
    • Printing temperature up to 540°C
    • Controllable maximum temperature of the constant temperature chamber: 160°C ± 2°C
    • Positioning accuracy: ±0.02 mm
    • Printing accuracy: ±0.05 mm
    Maximum print size: 450*350*580 mm

WTSK 3D Printer for Carbon Fiber and Glass Fiber, Standard with Tungsten Steel Nozzle

Learn more

News

THE 61st ASIS-PACIFIC FILM FESTIVAL KUALA LUMPUR 29 NOV - 1 DEC 2024​
ASIS-PACIFIC FILM FESTIVAL

Why Choose Us

Ranked first in its segment within the industry
Developed several high-end products, pioneering domestically

Our core product offers the highest printing temperature, best printing accuracy, and lowest equipment cost. Independently developed ultra-high temperature FFF industrial-grade 3D printing equipment, with 8 invention patents and 30 utility model patents filed. It is in high demand in fields such as medical, automotive, aerospace, and defense.

A top-tier team of technology experts in the industry segment

Team leaders Zhao Zhanfeng, Zhang Peiyue, and Ji Shoucheng have extensive experience in 3D printing R&D and are industry leaders. The company is establishing the WSTK 3D Printing Institute in collaboration with top research institutions like the Chinese Academy of Sciences and the National Key Laboratory of Special Metallurgy.

Flexible selection, large-size molding

The FDM (Fused Deposition Modeling) 3D printer offers versatile functionality, producing durable parts for concept models, prototypes, tools, and production components. Engineers can easily create various products by loading different files and materials, a flexibility not possible with traditional machining processes.