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Fake Parts - Dryden Program Recognized as One of the Best in the Nation
March 7, 2013
 

Preventing counterfeit parts from showing up in Dryden projects takes a team, which includes, left to right, Steven Wildes, Sherry Schmitz, Nadia Wright, Jaime Garcia and Steven Foster. Preventing counterfeit parts from showing up in Dryden projects takes a team, which includes, left to right, Steven Wildes, Sherry Schmitz, Nadia Wright, Jaime Garcia and Steven Foster. (NASA/Tom Tschida) › View Larger Image

Dryden is at the forefront of developing aerospace technology and it is now recognized as a model for insuring that none of that technology fails from the use of counterfeit parts.

Steven Foster, who is Dryden's lead specialist for procurement quality assurance, spearheaded the development of a procurement process that greatly reduces the possibility of getting and using counterfeit parts.

"We might sometimes add a few steps in a process, but we sleep better at night knowing that we have done everything we can to mitigate that risk," Foster said. "Some people take the road of least resistance. We don't."

This material analyzer is one of the most recent tools used to uncover substandard materials and counterfeit parts.This material analyzer is one of the most recent tools used to uncover substandard materials and counterfeit parts. (NASA/Tom Tschida) › View Larger Image Counterfeit part makers are becoming more sophisticated and attuned to the market, making it a bigger and bigger problem for industry and government, Foster said. Suppliers selling counterfeit parts across the nation increased 63 percent from 2002 to 2011, adding 9,539 new high-risk vendors in 2011 alone.

It is estimated that about 2 percent of all parts purchased by the government are counterfeit - more than 500,000 parts a year. An example of the problem is $2.7 million in damage to a U.S. Department of Defense missile system caused by the use of counterfeit parts.

"In a recent webcast to 30 countries, we explained how Dryden reduced the risk of counterfeit parts with good processes in place to do a thorough vetting of companies in size from a mom-and-pop store to a multi-million dollar corporation. We use that data to make informed decisions about if we want to use a supplier or not," Foster said.

A electronic risk assessment questionnaire was developed at Dryden to determine a company's records on where parts came from, controls on how the parts are acquired and tested prior to the parts arriving here. A point system from zero to 100 was developed to determine risk. The higher the score the more confident Dryden can be that it is safe to purchase from the company. A score of 52 is required in most cases to procure parts, Foster said.

"Traceability is a big part of aerospace. Where did this part originate? Some suppliers can only trace it back to a country. Of course we won't use it because we don't know exactly where it came from and the risk would be too great," Foster explained.

It's not always easy tracing where parts came from, even those that are common off-the-shelf items.

Scott Erickson prepares a material analyzer to determine the quality of metal sheets that were delivered to Dryden.Scott Erickson prepares a material analyzer to determine the quality of metal sheets that were delivered to Dryden. (NASA/Tom Tschida) › View Larger Image "Some vendors do not want to release information when we start digging. If they refuse to give it to us, we disqualify them," Foster said.

"There can be a situation where a high-risk company is the only one with the part we need. We still get it, but we increase inspections and testing of the part before it is put into an aircraft for flight," he added.

Dryden has found counterfeit parts, one that cost just a nickel.

"Low cost items can have a high cost on our operation," said Steven Wildes, branch chief of the Quality Assurance branch.

The parts were tie straps that were used mostly for bundling wires together so they did not interfere with other flight control components during a mission. The parts were procured from overseas.

"Dryden technicians would put the tie wraps on and the part would snap and break in half. We evaluated why the tie wraps would break and determined they were counterfeit," Wildes said.

Another example was when Dryden ordered O-rings for a jet engine component. What the center received was a video recorder belt that was labeled as an O-ring that was "very obviously a counterfeit part," he said.

Former Center Director Kevin Petersen was concerned about counterfeit parts in the mid 2000s and that's when Wildes was chosen to focus on the quality of parts. Wildes later hired Foster to focus on refining processes to filter out counterfeit parts. Finding parts for some of the center's aging aircraft can open the door for counterfeit part suppliers without a good system to detect them.

The dedication to keeping fake parts and subpar materials out of Dryden shops and aircraft continues with Center Director David McBride. McBride approved a state-of-the-art material analyzer that recently was delivered to Dryden to assist in determining the quality of delivered parts and materials.

Quality assurance representative Scott Erickson explained the analyzer could determine in a minute or less the chemical make up of materials. In addition, it is so sensitive that it can also be used to investigate even light elements, solder and welds. Previous equipment could only analyze general metals, but this instrument is capable of looking at complex chemical elements used in the development of electronics. It is used to sample deliveries from established vendors and mills and more extensive investigations on materials from new vendors or from foreign mills.

Using the device, "We can trust what we are getting," Erickson said.

The next step is looking for ways to better share what the center has learned.

"We are also working with NASA Headquarters to develop a single list of cleared suppliers for use by all NASA centers. That information could also be shared with different agencies and companies," Foster said.

The goal of these efforts is the same - protect people from injuries and eliminate unknowns about parts and materials from the risks that must be taken for a successful flight test program.



 
 
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Page Last Updated: July 28th, 2013
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