What is the Correction Factor for Mild Steel when using Inductive Proximity Sensors?

When working with inductive proximity sensors, the Correction Factor for Mild Steel is established based on the material's influence on the sensing capabilities of the sensor. Mild steel, being a ferrous material, has specific magnetic and conductive properties that affect how sensors detect objects in their range.

A Correction Factor of 1.0 indicates that the inductive proximity sensor can reliably detect mild steel without any modification to its sensing distance. This implies that the sensor operates at its rated performance when the target is mild steel, allowing it to function effectively without any additional calibration or adjustment.

On the other hand, values lower than 1 would suggest a reduced detection capability, while values higher than 1 would imply that these materials are easier for the sensor to detect than mild steel. Since mild steel is a standard reference point, a Correction Factor of 1.0 accurately reflects its behavior and the sensor's specification in practical applications.