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1.3: Infrared Thermography as an NDT Method

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    Infrared thermography is an NDT method that detects infrared radiation emitted by objects and converts it into a visible image representing temperature differences. These images, known as thermal images or thermograms, allow inspectors to observe thermal patterns that may indicate abnormal conditions.

    Unlike some NDT methods that require physical contact or surface preparation, thermography is non-contact, can be performed while systems are energized or operating, allows inspection of inaccessible or hazardous areas, and provides immediate visual results.

    Thermography does not see through objects. Instead, it detects surface temperature patterns that may be related to internal or surface conditions.

    Typical Applications of Thermography

    At the Level I scope, thermography is commonly used for screening and condition monitoring rather than for diagnosis. Typical applications include:

    Electrical Systems

    • Electrical panels and switchgear
    • Transformers
    • Circuit breakers
    • Connections and terminations

    Abnormal heating may indicate increased resistance, loose connections, or imbalanced loads.

    Mechanical Systems

    • Bearings
    • Motors
    • Pumps
    • Gearboxes

    Heat patterns may be associated with friction, misalignment, or lubrication issues.

    Building and Infrastructure

    • Insulation performance
    • Air leakage
    • Moisture intrusion
    • Roof condition

    Thermal patterns can reveal areas of heat loss or moisture-related anomalies.

    Industrial and Manufacturing Processes

    • Process monitoring
    • Quality control
    • Heat distribution in components

    This page titled 1.3: Infrared Thermography as an NDT Method is shared under a CC BY-SA 4.0 license and was authored, remixed, and/or curated by Jay Seidel.