Posted on 02/17/2011 8:37:29 PM PST by sukhoi-30mki
Maintenance of Taiwan's AIM-120 missiles at risk: report
2011/02/17 21:16:10
Taipei, Feb. 17 (CNA) The sustainability of a U.S.-made missile that is part of Taiwan's defense arsenal could be at risk because the component makers have withdrawn from the manufacturing program, according to a military report.
The maintenance and life-cycle of the hundreds of AIM-120 Advanced Medium Range Air-to-Air Missiles (AMRAAM) that Taiwan currently has in service could be affected by the move, said a Taiwan Air Force report on the 2010 AMRAAM International Users' Conference that was held in Florida in May 2010.
At the meeting, the U.S. had raised the issue of Diminishing Manufacturing Sources and Material Shortages (DMSMS) , recommending that countries revise their procurement contracts to include maintenance and warranty clauses, the report said.
Citing the U.S. Air Force 649th Armament Systems Squadron (ARSS) that is in charge of managing such weapon system programs, the report said that the component shortage could begin in 2012.
However, the U.S. has been in contact with Raytheon, the main manufacturer of the missile, and the AMRAAM system program office on the possibility of developing replacement components, the report stated.
The U.S also intends to develop joint logistics support plans with Raytheon for the next two decades to maintain U.S. air dominance until at least 2030, according to the report.
The Taiwan air force is seeking assistance and advice from the U.S. on the issue because the humidity in Taiwan presents problems for the maintenance and storage of the missile, the report stated.
The AIM-120 is an air-to-air missile capable of all-weather, night and day performance. It is currently in service in the U.S. and 34 other countries, including Taiwan, with the total number exceeding 18,000. (By Chris Wang) enditem /pc
/johnny
The ROC isn’t able to reverse-engineer the component and make their own replacements?
Heat and humidity was cited for the very high failure rate of missiles in Vietnam.
You’d think that 40 years later we’d come up with a way to combat humidity in a missile.
If the component is complex enough then it's very hard. Those things are hard to build even if you are the manufacturer and have all the drawings. It's orders of magnitude harder if you just look at the ceramic substrate with sparks of wirebonded dies, CSPs and other hybrid magick.
That said, the logistics people have to look at failure rates of key components. If re-engineering the component is not possible or a replacement cannot be found, then the supply people will have to do a final, one time buy of that part or parts. The one time buy is a guesstimate of usage and failures over the next 20-25 years. Once procured, that's all there is for spare parts in the bin.
I wonder if this has anything to do with China's refusal to export rare earth elements.
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.