The FLSUN T1 Max is a high-performance model within the T1 series, engineered specifically for high-speed printing, sustained stable operation, and small-scale mass production. Inheriting the T1 series’ pursuit of speed and quality, the T1 Max adopts an open-frame structural design, removing the enclosed chamber configuration. This results in a lighter, more efficient machine with excellent compatibility and expandability.
The working process of the T1 Max is as follows:
- Creating or Acquiring a Digital Model
Users begin by creating a 3D model using CAD software or downloading an existing model from online repositories. Common file formats include STL and OBJ.
- Slicing the Model
The 3D model is processed using slicing software such as FLSUN Slicer. The software divides the model into hundreds or thousands of thin layers and converts the data into G-code. This G-code instructs the printer on nozzle pathing, temperature, speed, and layer height.
- Print Preparation
Before printing, users must load filament, clean and secure the build platform, and perform automatic calibration. The T1 Max’s reinforced mechanical structure ensures high stability and repeatability, allowing consistent performance during extended operations and maintaining precise parameter control throughout continuous tasks.
- High-Speed Printing
Once printing begins, the T1 Max utilizes its high-performance motion system to print at ultra-fast speeds while maintaining path accuracy and strong layer adhesion. Its high acceleration capabilities and optimized path planning algorithms significantly reduce print times, making it well-suited for rapid prototyping and small-scale production runs. Despite its open-frame design, the T1 Max achieves excellent material compatibility and print quality through a reliable thermal management system and platform control.
Through these design choices, the T1 Max is not only a desktop-class high-speed printer but also a professional-grade tool with “farm-level” production capabilities. It supports parallel multi-machine deployment, making it ideal for systematic management and enabling seamless transitions from prototyping to mass production. As such, it serves as a vital addition to the T1 series for industrial applications.