chanelink logo
CHANELINK
Türkçe

MICRONICS launches its innovative SLS 3D printer product

372
2024-06-17 15:24:37
Çeviriyi gör

3D printing company Micronics announced the launch of its new Micron desktop selective laser sintering (SLS) 3D printer.
The company stated that Micron is priced at $2999 and aims to bring industrial grade 3D printing capabilities to desktops for professionals and hobbyists. One of the main features of Micron is its ability to print complex objects without the need for supporting structures. This is achieved through a high-power laser, which fuses the powder plastic layer together. The surrounding unmelted powder serves as a natural support for the printed object, allowing for the creation of complex shapes with high precision.

Design Freedom and Durable Materials
According to the company, the printer focuses on producing high-quality and durable parts. It utilizes high-performance polymers such as nylon, and according to reports, the parts are very sturdy, chemically resistant, and wear-resistant. In addition, the construction room allows users to maximize efficiency by stacking hundreds of parts for production operations.

Security and user friendliness are key aspects of Micron's design. This printer includes MicroSlicer, a free custom software program designed specifically for Micron. This software has a new physics based packing algorithm that can optimize the placement of parts in the construction chamber. The printer itself has a fully enclosed powder processing system that enables cleaning operations and is equipped with safety features, including a 2-level carbon HEPA filter and a removable smoke exhaust.

Another noteworthy aspect of Micron is that it is entirely manufactured and supported in the United States. This ensures high quality and reliability for users. To further protect user privacy, both the printer and slicer are running completely offline.

Source: Laser Net

İlgili öneriler

  • Iron Triangle releases fiber Bragg gratings and arrays based on multi-core fibers

    T35 multi-core fiber grating and T103 multi-core fiber grating arrays can be engraved into all fiber cores in physical locations, or only onto certain fiber cores.They can also have the same wavelength, or they can have all different wavelengths at the same physical location along the fiber or at different physical locations along the fiber.T35 and T103 are very suitable for projects that require...

    2023-10-28
    Çeviriyi gör

  • Laser additive manufacturing: monitoring during defect occurrence

    Researchers at the Federal Institute of Technology in Lausanne have resolved the long-standing debate surrounding laser additive manufacturing processes through a groundbreaking defect detection method.The development of laser additive manufacturing is often hindered by unexpected defects. Traditional monitoring methods, such as thermal imaging and machine learning algorithms, have shown significa...

    2023-12-06
    Çeviriyi gör

  • Targeting military laser technology! Two major enterprises plan to establish a joint venture company

    Latest news: Rheinmetall and European Missile Group Germany plan to establish a joint venture to develop shipborne laser weapons.The cooperation between the two companies in the field of military laser technology has been ongoing for several years. In 2022 and 2023, under the framework of the High Energy Marine Laser Demonstration Working Group (ARGE), the jointly developed laser was successfully ...

    01-15
    Çeviriyi gör

  • Juguang Technology launches miniaturized high-power semiconductor laser stack GS09 and GA03

    In today's technology field, Juguang Technology released two highly anticipated high-power semiconductor lasers on December 13th: GS09 and GA03. These two products are leading the innovation wave in the laser industry with their miniaturized design, excellent thermal management capabilities, and extensive customization flexibility.GS09 revolutionizes chip spacing by compressing the width of the st...

    2023-12-15
    Çeviriyi gör

  • Smaller laser facilities use new methods to break records before proton acceleration

    The Helmholtz Dresden Rosendorf Center (HZDR) has made significant progress in laser plasma acceleration. By adopting innovative methods, the research team successfully surpassed previous proton acceleration records significantly.They obtained energy for the first time that can only be achieved in larger facilities so far. As reported by the research team in the journal Nature Physics, promising a...

    2024-05-15
    Çeviriyi gör