Our ZEISS Diamond!Scan styli were especially developed for measurements on ultra-hard ceramic surfaces or extremely soft aluminum alloys. It consists of diamond - the hardest material in the world.
No material adheres to diamond spheres, not even with extremely soft aluminum alloys. Diamond!Scan spheres retain their high-precision form at all times, thereby preventing additional measuring uncertainties.
Diamond!Scan styli do not wear on account of their hardness when extremely hard materials such as ceramic are measured. You can rely on your measurement, because the diamond sphere retains its high-precision form and contributes to a precise measurement of the flatness of this hard workpiece surface.
Laborious checking, cleaning and re-calibration can be largely dispensed when using Diamond!Scan spheres. This saves time and cuts costs. Moreover, diamond spheres have a considerably longer service life than conventional ruby styli and can save money in the long run.
Our ZEISS Diamond!Scan is a stylus with a sphere made of solid diamond. It is highly durable and does not get worn out even when exposed to hard materials. You can count on the solid diamond stylus even at single point probing with heavily concentrated load. In short: we strongly advise our solid diamond styli for the hardest measurement tasks. They are available with the diameters DK 1, DK 2 and DK 3.
Diamond-coated styli are composed of a ceramic sphere coated with diamond. They are especially suitable for scanning soft materials. This ensures that no material from the workpiece is deposited on the sphere. Another advantage is that coated styli have higher levels of roundness with less than 150 nm and are consequently more precise at a significantly lower price. These styli are available with the diameters DK 1.05; DK 2.05; DK 3.05; DK 5.05 or DK 8.05.
ZEISS Diamond!Scan mono is a monolithic stylus with diamond coating. This means that the sphere and stylus are produced from one piece. This solution has several advantages: They can be produced with every diameter and every technically feasible length. Moreover, there is no risk that the sphere breaks off, as the stylus is made ‘seamless’.
The choice depends on your individual measurement task. Each of the styli has its own advantages.
- More robust with point loading
- High wear resistance on ceramic
- G10 roundness (<250nm)
- For universal use
- No build-up of material when scanning aluminum
- G5 roundness (<150nm)
- Various diameters possible (larger)
- Less expensive