Wednesday, October 5, 2016

Processing Steps of a Liquid Penetrant Inspection

Basic Processing Steps of a Liquid Penetrant Inspection are .

  1. Surface Preparation:
    One of the most critical steps of a liquid penetrant inspection is the surface preparation. The surface must be free of oil, grease, water, or other contaminants that may prevent penetrant from entering flaws. The sample may also require etching if mechanical operations such as machining, sanding, or grit blasting have been performed. These and other mechanical operations can smear metal over the flaw opening and prevent the penetrant from entering.


  2. Penetrant Application:
    Once the surface has been thoroughly cleaned and dried, the penetrant material is applied by spraying, brushing, or immersing the part in a penetrant bath.
  3. Penetrant Dwell:
    The penetrant is left on the surface for a sufficient time to allow as much penetrant as possible to be drawn from or to seep into a defect. Penetrant dwell time is the total time that the penetrant is in contact with the part surface. Dwell times are usually recommended by the penetrant producers or required by the specification being followed. The times vary depending on the application, penetrant materials used, the material, the form of the material being inspected, and the type of defect being inspected for. Minimum dwell times typically range from five to 60 minutes. Generally, there is no harm in using a longer penetrant dwell time as long as the penetrant is not allowed to dry. The ideal dwell time is often determined by experimentation and may be very specific to a particular application.

  4. Excess Penetrant Removal:
    This is the most delicate part of the inspection procedure because the excess penetrant must be removed from the surface of the sample while removing as little penetrant as possible from defects.  Depending on the penetrant system used, this step may involve cleaning with a solvent, direct rinsing with water, or first treating the part with an emulsifier and then rinsing with water.


  5. Developer Application:
    A thin layer of developer is then applied to the sample to draw penetrant trapped in flaws back to the surface where it will be visible. Developers come in a variety of forms that may be applied by dusting (dry powdered), dipping, or spraying (wet developers).
  6. Indication Development: The developer is allowed to stand on the part surface for a period of time sufficient to permit the extraction of the trapped penetrant out of any surface flaws. This development time is usually a minimum of 10 minutes.  Significantly longer times may be necessary for tight cracks.
  7. Inspection: Inspection is then performed under appropriate lighting to detect indications from any flaws which may be present.
  8. Clean Surface: The final step in the process is to thoroughly clean the part surface to remove the developer from the parts that were found to be acceptable.

28 comments:

  1. This comment has been removed by the author.

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  2. what is pulser/receiver, transducer, and display devices ?
    How is the reflected wave analyzed ?
    How could u get the exact location of defect using sound waves ?
    What is the scope of application of UT ?

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  3. Tanks Techshore for the information, can you please provide more details regarding Penetrant material, type of penetrants, chemical compositions etc...

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  4. If I have to detect cracks in laser machined surface which penetrant material I can use.

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    Replies
    1. Normal liquid dye penetrant is sufficient wich is not water soluble

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  5. What are all the types of pentrants available in the market ?.
    How do we understand the quality of a penetrant ?
    How could we evaluate or QC our testing process ?

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  6. Article is good .
    But I think the author owe to answer the audience questions .
    Further more I would request you to include details on the effectiveness of LPT , advantages of LPT , scenarios were LPT works good and were conditions to be kept in mind while using LPT.
    The advantages and disadvantages should also be brought in for better understanding of the topic

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    Replies
    1. Liquid penetrant test is applied only on non porous metals or materials.its advantage is that it can be applied for any surface,it can be applied to find ony surface open cracks only upto a depth of 3 mm from surface .temperature,humidity,size and shape of defects are taken into consideration

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  7. Well written!
    Simple, but content rich.
    Thank you for sharing this!

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  8. Please provide more real world examples . References , Pictures etc .
    How and when are the situations when we should use this ?
    What are all the practical applications of this process ?
    Including real world scenarios would help readers have better co-relation of the topic .
    Is there any material dependency for this process ?

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  9. Is there any specific type of penetrant to consider for ferrous and non-ferrous materials ?

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  10. Instead of dealing right away with the processing steps in liquid penetration inspection, I personally feels it will be more informative if you have given a short introduction about what liquid penetration test is and all that. I was totally unaware about this topic and I wanted to google for knowing what LPT is! I hope you will come up with a word for my notion.

    Good work and keep going!

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    Replies
    1. Thank you for your suggestion.will keep it more informative for the upcoming videos

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  11. Yes the article is informative.but rather than starting from processing steps.The article would have explained about the testing and its application. But thanks Techshore for sharing the valuable informations

    ReplyDelete
  12. what is pulser/receiver, transducer, and display devices ?
    How is the reflected wave analyzed ?
    How could u get the exact location of defect using sound waves ?
    What is the scope of application of UT ?

    ReplyDelete
  13. what characteristics are normally considered when selecting the type of penetrant to be used in a penetrant test?

    ReplyDelete
    Replies
    1. Characteristics of a penetrant are,bright contrast color,viscosity,easyness to clean and mainly capillary action

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    2. Characteristics of a penetrant are,bright contrast color,viscosity,easyness to clean and mainly capillary action

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  14. Short explanation with best points So it's easy to understand.Thanks Techshore.

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  15. Please provide more information about this liquid Penetrant Inspection.And i have a small request to you techshore please include some more picture example to this article. because that will more helpfull to the other people and also to me ,to earn more information about this liquid Penetrant Inspection.because so many people didn't know about this liquid penetrant inspection......
    And thank you techshore for this small valuable information,,.....

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  16. Got a clear idea about penetrant testing.

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  17. Got a clear idea about penetrant testing.

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  18. This comment has been removed by the author.

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  19. Got a basic idea about Liquid Penetrant Inspection. Various processing steps are described very well along with figures where needed.

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  20. Got basic knowledge about liquid pénétrant test...

    ReplyDelete