'HALOT,' the 3D-printing solutions company, announced its newest 3D resin printer, the 'HALOT-RAY.' This printer notably includes HALOT's second-generation 'Integral Light Source' technology, which improves light evenness, resulting in improved precision on print jobs. This also allows for printed projects to be more sturdy and smooth without compromising on accuracy. In fact, Integral Light Source demonstrations showcased an accuracy of over 99.7%.
The HALOT-RAY features integration with HALOT OS and HALOT BOX, meaning it synchronizes with the entire HALOT printing ecosystem. HALOT OS allows users to access printed devices remotely with real-time synchronization, while HALOT BOX provides users the opportunity to create accurate print jobs from any online computer. Additionally, HALOT BOX will automatically identify potential weak points or failures on 3D-print-ready models and attempt to remedy the issue.
Light Source Resin Printers
HALOT Released the HALOT-RAY with Second-Generation Light Technology
Trend Themes
1. Integral Light Source Technology - The development and incorporation of second-generation integral light source technology in 3D printing to improve print precision and stability.
2. Remote Access and Synchronization - The integration of printing ecosystems and software to allow remote access and real-time synchronization for 3D printing.
3. Automated Print Optimization - The implementation of software that can identify and optimize 3D print jobs, improving the overall success rate of print jobs.
Industry Implications
1. 3D Printing - Further development of integral light source technology and software integration has the potential to disrupt 3D printing, making it more efficient, precise, and accessible.
2. Manufacturing - The automation and optimization of 3D printing processes can revolutionize manufacturing, making it faster and more cost-effective.
3. Design - The high level of precision and accuracy offered by HALOT-RAY and similar printers presents opportunities for designers to create complex structures and shapes that were previously difficult to achieve with traditional manufacturing methods.