Overview
The LS225 + F500 + rack Coating thickness gauge set consists of the LS225 host and the F500 thickness gauge Probe. The LS225 host is responsible for the display and statistics of measurement data. The F500 Probe uses digital technology to complete data collection and processing on the Probe, which is specially used for the measurement of ultra-thin coated platings thickness. High Accuracy and Repeatability are suitable for nonmagnetic coating measurement on ferromagnetic metal substrates such as steel, especially for small workpieces such as nails and bolts. Thin platings.
Features
1. Probe adopts digital oscillation technology and high-speed ADC acquisition to ensure ultra-high Stability of the instrument.
2. Ultra-small probe, especially suitable for thin platings measurement on small workpieces such as nails and bolts.
3. Multi-point Adjustment, Linear dispersion is corrected according to the actual workpiece to make the measurement more accurate.
4. Statistical function, automatically count the MAX Maximum, MIN Minimum, Average and Variance of the 9 Measured values recently measured.
5. Hardness probe ensures long-term effective use of the instrument.
6. Using professional digital Probe technology, digital signal processing is completed directly on Probe, Probe is not easily disturbed and provides excellent Test accuracy, even if the temperature change does not affect the measurement, the reading remains stable to ensure very good Repeatability throughout the measurement process.
7. Equipped with a special test fixture (optional), not only makes measurement more convenient, but also eliminates measurement errors caused by human factors.
Principle
The thickness gauge is based on the principle of magnetic Induction for measurement. Probe uses digital oscillation technology and high-speed ADC acquisition. Digital signal processing is done directly on Probe to ensure High Accuracy and Stability. It enables fast and accurate measurement by detecting the thickness of nonmagnetic coatings on ferromagnetic metal substrates.
Applications
Metalworking, Hardware
Standards
GB/T 4956-2003、DIN EN ISO 2808、JJG-818-2005
Steps
1. Perform zero-point calibrating or multi-point calibrating (support 1-point to 5-point calibrating).
2. Probe placed on the surface of the workpiece to be tested for measurement.
3. Read the measurement data on the display and use the statistics function to view the MAX Maximum, MIN Minimum, Average and Variance values.
Notice
• Ensure that the substrate is ferromagnetic metal and the thinnest substrate is not less than 0.1mm.
• The minimum diameter of the measurement surface is φ 7mm, and the radius of curvature needs to meet the convex surface 1.5mm and the concave surface 10mm.
• Operating temperature range is 0~ 50 ℃, storage temperature is -20~ 60 ℃, avoid using beyond the range.
• Measurement accuracy and convenience can be improved by using a dedicated test fixture (optional).
• The measurement interval is 1.5 seconds to avoid continuous rapid measurement affecting the results.
• Regularly calibrate instruments to ensure accuracy.
