Liquid Penetrant Testing is an NDT method used to locate surface-breaking defects and/or discontinuities. A low-viscosity fluid known as a penetrant is applied to the part and allowed to dwell on the part for a specified time. The excess penetrant is carefully removed and a developer is applied which draws the penetrant out of defects and/or discontinuities through capillary action and provides a contrasting background to improve the visibility of the indications.
iV-ndt operates according all international codes and standards, the procedures are all reviewed and approved by our level 3 technician.(EN 571-1/ISO 3452-1 acc EN ISO 23277, ASME V/B31,3 , AWS D 1.1)
Materials inspected include non-ferrous and ferrous materials, although ferrous materials are typically inspected with Magnetic Particle testing for its subsurface detection capabilities. This method is used to detect casting, forging and welding surface defects and/or discontinuities such as cracks, surface porosity, leaks, fatigue cracks on in-service components, and inherent manufacturing flaws.
Surface preparation is critical and it is therefore important to ensure surfaces are free of oil, grease, scale, paint, rust or other residues that may affect the quality of inspection.
Penetrants are either visible or fluorescent, and are removed by either water washable, post-emulsifiable, or solvent removable methods. The methods used are typically determined based on the application, or as specified by code and/or manufacturing specifications. The water washable visible method is commonly used, however it is not as sensitive as the fluorescent method. Fluorescent penetrants are highly sensitive as they have the ability to detect very small defects and/or discontinuities. Fluorescent penetrants are viewed under a near ultraviolet light, referred to as a black light. Visible penetrants have one sensitivity level, and defects and/or discontinuities appear as red penetrant indications against the white developer background.
Temperature limitations are generally in the range of 4°C to 55°C. Special penetrants are available and are used for lower or higher temperature applications. Penetrants are typically applied by brushing, spraying or immersing.