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Direct part marking

Direct part marking (DPM) is a process to permanently mark parts with product information including serial numbers, part numbers, date codes, and barcodes. This is done to allow the tracking of parts through the full life cycle.

The interpretation of 'permanent' often depends on the context the part is used. In the aerospace industry an aircraft part may be in service for over 30 years. Within telecom and computer industries the life cycle may only last a few years.

DPM is often used by automotive, aerospace, and electronic manufacturers to facilitate a reliable identification of their parts. This can assist in data logging for safety, warranty issues and satisfy regulatory requirements. Also the United States Department of Defense demands a physical mark on tangible assets in conjunction with the Item Unique Identification.

Barcode types

There are many ways to encode an information to a machine-readable code. The preferred codes are the Data Matrix{{cite journal | article-number = 025004

Marking methods

Methods to produce a permanent mark on parts are:

Indenting
Embossing
Coining
Abrasive blasting
Adhesive dispensing
Cast, forge or mold
Dot peen
Scribe
Electro-chemical etching
Embroidery
Engraving/milling
Laser marking
LaserShot peening
Liquid metal jet
Stencil (mechanical cut, photo process, laser cut)

Other methods like manual metal stamp, vibro-etch and embossing were not suitable to successfully apply micro size (1/32- to 15/64-inch square), high density machine-readable symbols.

Marking method selection factors

The marking method depends on a number of different factors:

Part function Non-intrusive marking methods are recommended for parts used in safety critical applications like aircraft engines or high pressure and high stress systems.
Part geometry It is more difficult to place a Data Matrix on a curved surface than it is on a flat surface.
Surface Highly polished metal surfaces should be textured to reduce glare prior to marking. The textured area should extend one symbol width beyond the borders of marking.
Part Size When a 2D Symbol is used, the size of the part is not a relevant factor as the available marking area is reduced to below 1/4 inch square.
Operating environment / age life It should be controlled, if the used marking method can survive in its intended environment and remain readable for the life cycle of the part.
Surface roughness / Finish A rough surface is more challenging for a 2D barcode as the data elements can be recognized appropriately. The surface roughness levels should be limited to 8 micro-inches for dot-peen marking, laser and scribe systems can make a readable mark in rougher surfaces. The laser systems burn a "quiet zone" first and then the 2D code. The scribe method provides a high resolution 2D mark that makes the part readily readable in most cast surfaces.
Surface thickness Surface thickness must be taken into account when applying intrusive markings to prevent deformation or excessive weakening of the part. In most applications the marking depth should not exceed 1/10 the thickness of the part.

Standards and regulations

NASA-STD-6002D, Applying Data Matrix identification symbols on aerospace parts

References

http://www.mmh.com/article/CA6437021.html {{Webarchive. link. (2008-02-09 Direct part marking: The next hot trend in automatic identification)
[https://standards.nasa.gov/documents/viewdoc/3314928/3314928 NASA.gov] {{Webarchive. link. (2013-02-17 NASA-STD-6002D)
[Scribe 2D code on cast surfaces]http://columbiamt.com/CMT-Square-Dot-Marking/Cast_Surface.html {{Webarchive. link. (2009-10-11)

Info: Wikipedia Source

This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.

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