Residual Field Indicator (Gauss Meter) – Full Description
A Residual Field Indicator, also known as a Gauss Meter, is a handheld measuring instrument used to check the amount of residual magnetism (remanence) present on a ferromagnetic component after Magnetic Particle Testing (MPI).
It ensures that the part has been demagnetized properly and meets acceptance standards.
✔ Purpose
A Residual Field Indicator is used to:
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Measure remaining magnetic field after demagnetization
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Ensure residual field is within acceptable limits (usually < 3 Gauss)
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Identify areas where magnetism may cause:
✔ Interference with service performance
✔ Problems during welding, assembly, machining
✔ Attraction of metal debris in service
✔ What It Measures
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Magnetic Flux Density in Gauss (G) or Tesla (T)
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Residual magnetism left in the part
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Polarity of magnetic field
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Leakage fields on steel surfaces
A Residual Field Indicator is typically single-axis, meaning it measures field strength in one direction at a time.
✔ Construction & Components
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Hall-Effect Probe
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Sensitive to magnetic field
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Usually transverse-type for surface measurements
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Connected by shielded cable
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Digital Display Unit
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Provides numeric reading of Gauss/Tesla
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Includes buttons for zeroing and unit selection
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Zero Adjustment
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Removes ambient magnetic influence before measurement
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Power Source
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Battery-operated for field use
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✔ Typical Specifications
| Parameter | Typical Value |
|---|---|
| Measurement Range | 0 to ±20,000 Gauss |
| Resolution | 0.1 to 1 Gauss |
| Accuracy | ±1% to ±2% |
| Display | Digital LCD |
| Probe Type | Hall-effect, single-axis |
| Units | Gauss / Tesla |
| Operating Temp | 0–50°C |
✔ How It Is Used in MPI (Step-by-Step)
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Zero the Meter
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Hold probe away from any magnetic object
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Press “ZERO” or adjust manually
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Place Probe on Component Surface
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Keep probe flat and stable
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Avoid vibration and movement
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Read Gauss Value
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Positive (+) or Negative (−) indicates polarity
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Value indicates field strength
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Compare With Acceptance Criteria
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Commonly required residual field: < 3 Gauss
(As per ASME, ASTM E1444, ISO 9934 guidelines)
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If High Residual Magnetism Is Found
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Repeat demagnetization
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Recheck until acceptable
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✔ Applications
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Magnetic Particle Inspection (MPI)
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Demagnetization verification
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Checking magnetic leakage around welds
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Evaluating residual field in bearings, shafts, gears
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Ensuring safe assembly of precision parts
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Determining if magnetic field may cause service problems
✔ Advantages
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High accuracy
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Portable and easy to use
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Fast response
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Essential for NDT (MPI) quality control
✔ Limitations
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Affected by probe orientation
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Must be zeroed frequently
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Single-axis only (except advanced models)
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Requires calibration annually
If you want, I can also provide:
📌 ALT image description of Residual Field Indicator
📌 Difference between Residual Field Indicator & Gauss Meter
📌 Calibration procedure
📌 Demagnetization acceptance criteria table
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