How Eddy Testing Works

Basic Principles of Eddy Current Inspection

Eddy current inspection is one of several NDT methods that use the principal of “electromagnetism” as the basis for conducting examinations. Several other methods such as Remote Field Testing (RFT), Flux Leakage and Barkhausen Noise also use this principle.

Eddy currents are created through a process called electromagnetic induction. When alternating current is applied to the conductor, such as copper wire, a magnetic field develops in and around the conductor. This magnetic field expands as the alternating current rises to maximum and collapses as the current is reduced to zero. If another electrical conductor is brought into the close proximity to this changing magnetic field, current will be induced in this second conductor. Eddy currents are induced electrical currents that flow in a circular path. They get their name from “eddies” that are formed when a liquid or gas flows in a circular path around obstacles when conditions are right.

 

 

 

 

 

 

 

One of the major advantages of eddy current as an NDT tool is the variety of inspections and measurements that can be performed. In the proper circumstances, eddy currents can be used for:

* Crack detection
* Material thickness measurements
* Coating thickness measurements
* Conductivity measurements for:
* Material identification
* Heat damage detection
* Case depth determination
* Heat treatment monitoring

Some of the advantages of eddy current inspection include:

* Sensitive to small cracks and other defects
* Detects surface and near surface defects
* Inspection gives immediate results
* Equipment is very portable
* Method can be used for much more than flaw detection
* Minimum part preparation is required
* Test probe does not need to contact the part
* Inspects complex shapes and sizes of conductive materials

Some of the limitations of eddy current inspection include:

* Only conductive materials can be inspected
* Surface must be accessible to the probe
* Skill and training required is more extensive than other techniques
* Surface finish and roughness may interfere
* Reference standards needed for setup
* Depth of penetration is limited
* Flaws such as delaminations that lie parallel to the probe coil winding and probe scan direction are undetectable

Reprinted from the NDT Resource Center web site


 
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