The FDM600 offers high efficiency by utilizing fused deposition modeling (FDM) technology, which extrudes thermoplastic materials to create precise and durable parts layer by layer. Unlike traditional 3D printers, the FDM600 allows for the economical use of materials, with the ability to adjust material amounts according to project needs. Capable of printing both flexible materials like TPU and rigid materials like ABS, it’s a versatile machine designed for multiple applications. With the strength of injection molding, the FDM600 is perfect for producing high-quality functional parts and prototypes.
Featuring a large printing size of 600x600x700mm, the FDM600 enables the production of large parts in a single print or multiple smaller components simultaneously. It also supports high-temperature printing, making it ideal for advanced materials like Nylon and Polycarbonate, allowing users to create robust, heat-resistant components.
The FDM600 also includes advanced features such as power-off resume, ensuring that printing can continue from the same point in case of power loss, and material break detection, which automatically pauses printing if the filament runs out, preventing wasted material and failed prints.
This printer excels in delivering smooth surface finishes and exceptional detail, making it ideal for professional use across various industries. Its large build volume and multiple filament compatibility offer users the flexibility to create both large and small parts with consistent precision.
FDM technology is known for its versatility and reliability. The FDM600 supports a wide range of filament types, each offering different properties such as flexibility, impact resistance, or high-temperature stability. Industries like automotive, aerospace, education, and product design benefit from the FDM600’s ability to produce accurate prototypes and end-use parts. Its ease of use, combined with advanced features like power-off resume and material break detection, make it a crucial tool in advancing rapid prototyping and additive manufacturing.
Model Specifications
Specification | Details |
---|---|
Printing Technology | FDM |
Print Nozzle | Single nozzle |
Build Volume (X*Y*Z) | 600 x 600 x 700 mm |
Printing Material | PLA/ABS/TPU/PETG/PA/PEEK/glass fiber/carbon fiber, etc. |
Filament Diameter | 1.75 mm |
XY Axis Accuracy | 0.05 mm |
Z Axis Accuracy | 0.01 mm |
Printing Speed | 30-150 mm/s |
Printing Platform | Heated aluminum base |
Platform Maximum Temperature | 100°C |
Box Maximum Temperature | 100°C |
Nozzle Maximum Temperature | 500°C |
Nozzle Diameter | 0.4 mm (standard), 0.6/0.8 mm (optional) |
Connection Method | SD Card/USB/WIFI |
Material Failure Detection | Supported |
Power Failure and Continuous Printing | Supported |
Water Cooling | Supported |
Slicing Software | CURA/SIMPLIFY3D |
Input File Format | STL/OBJ |
Output File Format | GCODE |
Operating System | Windows 7 or above |
User Interface | 7-inch high-definition touch screen |
Screen Resolution | 1024 x 600 |
Controller | STM32 |
Operating Environment | 15-30°C, Relative humidity < 40% |
Machine Size | 1157 x 1127 x 1820 mm |
Packing Size | 1300 x 1250 x 1980 mm |
Weight | 200 kg |
Power Supply Input | 220V AC 50/60Hz |
Power Supply Output | 2000W 24V DC |