A specialized microscope designed for looking at cross-sections of metal targets (metallurgical mounts). Typically inverted, these microscopes employ high-resolution objective lenses with very short working distances. While these systems work well for this type of analysis, they are very limited in their range of applications.
Digital Microscopes achieve a depth-of-field at least 20 times larger than optical microscopes, allowing for accurate observation of a target with a highly uneven surface.
This type of observation is impossible to achieve with metallurgical microscopes and helps to greatly reduce the amount of time needed for focus adjustments.
Different mechanical properties can be obtained even from the same metals depending on the shape, size, distribution, etc of the crystal grains. Therefore, mechanical properties can be determined by examining the state of these crystal grains.
The VHX Series’ Automatic Area Measurement function has features that make analysis works more efficient. Images and measurement results can be output into a report format within Microsoft Excel with just the click of a button.
With Variable-angle Observation capability, digital microscopes can achieve observation from 360-degree angles freely, without having to tilt the target. The VHX Series also offers easy, handheld observation. This means for larger targets, the time required for inspection can be reduced dramatically.
Easily perform 2D and 3D measurements. Roughness, contamination, grain size, and other measurements can be performed with one tool. Data can be saved and accessed later for further measurement. Furthermore, free communication software makes it possible for anyone to utilize the measurement functions from their own PC.
Digital microscopes can produce fully focused, 3D displays at the push of a button.
Three-dimensional data is obtained while the stage is in motion and images are being continuously captured, creating an overall view of the target. Users are also able to measure surface roughness just by drawing a profile line at any location.
Using a specialized design featuring a high-resolution HR lens, a 4K CMOS image sensor and illumination technology, KEYENCE has developed a whole new method of microscopy. Minute irregularities on the surface can be detected by analyzing the contrast in an image captured using multi-directional illumination.
By simply pushing the Optimize button, nine different lighting scenarios are displayed.
From there, you can quickly select the image that is ideal for observing your target.