Buy ASTM E PRACTICE FOR LIQUID PENETRANT EXAMINATION FOR GENERAL INDUSTRY from SAI Global. ASTM E Standard Practice for Liquid Penetrant E Standard Practice for Liquid Penetrant Examination for General Industry View on Information. Find the most up-to-date version of ASTM E at Engineering
|Published (Last):||10 September 2017|
|PDF File Size:||20.56 Mb|
|ePub File Size:||15.26 Mb|
|Price:||Free* [*Free Regsitration Required]|
Non-destructive examination NDE is used to detect cracks and other aetm in a part without rendering e16-502 part unusable by performing destructive testing. These inspections can increase the reliability of the part e16-502 providing early detection of flaws that could lead to a failure. The purpose of this article is to describe these basic NDE techniques and discuss some of the advantages and disadvantages of the different methods.
Liquid penetrant testing Liquid penetrant inspection is the most popular method to check for surface cracks because it is simple and no special equipment is required. With this technique, liquid penetrant is applied to the surface of a material and is drawn into surface discontinuities such as cracks, pits and seams by capillary action. This technique can be used on a variety of ferrous and non-ferrous materials, including steel, stainless steel, aluminum, bronze, tungsten carbide, ceramics and plastics.
In most cases, the discontinuities are visible to the naked eye without liquid penetrant testing. The liquid penetrant examination just makes the discontinuities easier to see. An example of a gear tooth crack that was made more visible using a dye penetrant examination is shown in Figure 1. The asym dye penetrant technique involves the following steps:.
Another technique involves the use of an ultraviolet light to view the surface discontinuities. This method substitutes fluorescent penetrating oil for the visible dye penetrant. After application of the developer, the visual inspection is done with a black light. The atm that is trapped in any discontinuities will glow when viewed under a black light. One of the most critical aspects of liquid penetrant testing is interpreting and evaluating the discontinuities.
It is a common misconception to label a discontinuity as a crack. The correct term for a discontinuity is an indication, which is not necessarily a crack or f165-02 flaw.
A scratch or a pore can easily be misinterpreted as a crack or flaw, and this can lead to unnecessary and costly repairs. To avoid this, any indications should be investigated by polishing and re-evaluating the indication. Also, there are no universal acceptance criteria on the maximum allowable size of an indication. Some equipment manufacturers allow some surface indications, depending on their size and location on a particular part.
Advertisement 4 Go to Page 1 2 3 4 Edit Story.
Box Dubuque, IA Phone: Energy-Tech Magazine Contact us. Some of the most popular NDE methods include: The visible dye penetrant technique involves the 1e65-02 steps: Pre-clean the surfaces to be inspected.
This might involve asmt, wire brushing, etc. The surface then needs to be solvent cleaned to remove any greases or oils. Penetrating oils typically contain a red dye and are sprayed or brushed onto the area of the material being tested.
A suitable waiting time allows the penetrant to enter the surface discontinuities, and then excess penetrant can be removed. This is typically done with a special cleaning solvent.
MET-L-CHEK ROT ( ml). Penetrant testing. Non-destructive testing. Quality System
Care must be taken not to overly clean and remove the penetrant from the discontinuities. Then the surface must be allowed to dry. As soon as the material is dry, the developer is applied.
The developer brings the penetrating oil axtm of the discontinuities by a blotting action. This can take minutes after the developer is applied. Cracks typically show up as red lines and pits usually look like red dots. The part then needs to be cleaned to remove the penetrant and the developer. A common recommendation is to use solvent and not potable water when cleaning stainless steel parts, such as turbine rotors, that will be highly stressed when in service.
The reason is that some potable water sources contain chlorine, which can leave a residue on the surface and can lead to cracking in some stainless steels. Non-destructive examination basics Patrick J.