Product successfully added to your cart
0 products in the cart 1 product in the cart
Our webstore uses cookies to offer a better user experience and we recommend you to accept their use to fully enjoy your navigation.
More information Gestionar cookiesThe Dianoz nozzle showcases the unparalleled hardness and heat-conducting properties of synthetic black diamond, offering exceptional abrasion resistance and heat resistance up to 550°C. Enjoy uniform material extrusion, smooth component surfaces, and maximum wear protection.
174,83 € tax excl.
174,83 € tax incl. 184,03 € -5%Ultra-resistant nozzle with a diamond tip. Compatible with many systems, materials and printers. Ultra-resistant nozzle with a diamond tip. Compatible with many systems, materials and printers.
Gühring stands at the forefront of global rotary precision tool manufacturing, boasting thousands of employees and numerous production sites across the globe. Renowned for its innovative cutting tools, Gühring serves diverse markets such as automotive, aerospace, and general engineering, delivering trendsetting tools built to the highest quality standards.
Since its groundbreaking invention of the first TiN-coated twist drill in 1981, Gühring has led the industry with pioneering advancements in tool coating technology. With decades of expertise, the company has mastered the design and production of customer-specific diamond-tipped tools, including polycrystalline diamond (PCD) tools vital for high-precision machining. Now, with Dianoz, Gühring introduces diamond-tipped technology to additive manufacturing, heralding a new era in FFF technology.
The cornerstone of the Dianoz brand is its flagship product, the Dianoz nozzle, meticulously developed over two years. With sophisticated geometry and a unique tip made from synthetic black diamond, the Dianoz nozzle harnesses the exceptional hardness and heat-conducting properties of diamond, offering unparalleled abrasion resistance and heat resistance up to 550°C. This nozzle ensures uniform material extrusion, smooth component surfaces, and maximum wear protection, even with highly abrasive filaments.