Selective Laser Sintering (SLS) Technology is an additive manufacturing (3D printing) process that works by selectively melting powdered materials with a laser and fusing them layer by layer. In this process, the laser melts the powder into a specific shape and immediately solidifies it through sintering. Each new layer is added on top of the previous one to build a three dimensional part.
SLS makes it possible to produce durable, complex, and high-performance parts using various powdered materials such as thermoplastics. One of its major advantages is that it can create designs in any direction without the need for support structures, making it ideal for manufacturing complex parts that traditional methods struggle with.
Our Advantages
High Accuracy and Durability
SLS technology uses laser melting for each layer, allowing for the production of very fine details and complex structures with high precision. This process enables the creation of high-performance, durable parts, offering solutions ranging from functional prototypes to end-use products.
Localized Heating Technology
By using localized heating, the process ensures uniformity throughout the part and minimizes the risk of warping. This means even components with complex geometries can be produced with high quality, accuracy, and reliability.
Quality at High Production Speeds
SLS maintains quality while enabling fast production. The laser sintering process delivers high precision even in long and complex prints, allowing for flexible production and efficient time management. This makes it possible to meet various production demands quickly and effectively.
High Durability and Functionality
The parts produced are not only durable but also resistant to mechanical stress and temperature changes. This ensures that the products are reliable and long-lasting throughout their service life.