ZEISS styli are available in a wide variety of designs. A large portfolio of standard styli for M2, M3, M3XXT or M5 threads is available. For these styli, different stylus elements made of different materials and different shaft designs are available. Furthermore, there are also styli without thread, as well as special styli for form, contour and surface measurements available.
Styli with M5 thread are the ideal choice for the ZEISS VAST probe system.
Styli with M3 XXT thread feature an enlarged adapter with a diameter of 5mm. Suitable for the VAST XXT.
Styli with M3 thread are particularly suitable for ZEISS RST measuring heads. With the appropriate connecting element...
Styli with M2 thread are particularly suitable for touch-trigger probes. With the appropriate connecting element, the...
Styli without thread can be combined with corresponding clamping inserts to form various stylus configurations (inclu...
Form, Surface, Contour
Styli for Form, Surface, Contour measuring
The different shaft materials
The shaft material used and the shaft cross-section have the greatest influence on the stylus rigidity. For standard styli, ZEISS uses shafts made of a high-strength carbide. These represent a good compromise in terms of weight, deflection and thermal linear expansion. Styli with ThermoFit shafts are particularly light, stiff and have only a small linear expansion under the influence of heat. They are therefore particularly suitable for applications in the M3XXT range and for long styli with a large shaft thickness. ZEISS is the only supplier to use a high-strength Grade 5 titanium alloy for the adapters. This gives the adapters high rigidity and makes them significantly lighter than steel adapters and also makes them anti-magnetic and corrosion-resistant.
The suitable sphere material
Usually a sphere is used as the stylus element. This sphere can be made of different materials and is suitable for different applications depending on the material. The standard are ruby spheres, but in combination with continuous scanning they can wear out or apply material to some surfaces. An alternative is silicon nitride, which has less material application when scanning aluminum, for example. Diamond coated or solid diamond spheres are especially suitable for scanning hard surfaces or soft aluminum alloys. Even sharp edges or single point scans with high load can be reliably performed. They have a very long durability, as they do not wear out and do not raise material.