Posted on 03/18/2007 9:36:29 AM PDT by BenLurkin
EDWARDS AFB - NASA Dryden Flight Research Center is studying using surplus Navy Phoenix missiles as hypersonic test platforms. The missiles, with the explosives and targeting systems removed, would be launched from the center's F-15 at speeds nearing Mach 2, or twice the speed of sound. The missile, carrying a test article, would then speed to Mach 5, the threshold of hypersonic speeds.
The project is intended to provide a new capability to flight test research payloads at hypersonic speeds, Dryden project manager Tom Jones said.
It will bridge the gap between wind tunnel and ground model tests and full-scale vehicles.
"For this speed regime, there is no test platform, no test capability for flight," he said.
The Dryden project is in the feasibility study stage, with the early captive-carry flights of the missile beneath the F-15 expected this summer, Jones said. A live launch is not likely until the end of 2008.
The launch concept itself is similar to Dryden's earlier Hyper-X program, in which the X-43 scramjet test vehicle was pushed to hypersonic launch speeds by the Pegasus booster. The booster and research vehicle were carried aloft by the center's workhorse B-52.
The difference in this case is that attached to the Phoenix booster will be a smaller test article, not an entire research vehicle with all the component systems, Jones said. It will focus on specific technologies, parts rather than the entire vehicle system.
The Phoenix platform may be used to test materials exposed to the extremely high heat at hypersonic speeds, or part of an engine or control software, he said.
(Excerpt) Read more at avpress.com ...
I hope they ask me.....
I'd have no problem coming up with a target list.
Semper Fi
It is disappointing to know that in this day and age, our military will no longer have an inventory of these missiles.....I'd prefer that we had more of them, rather than none......
AIM-54 Phoenix Missile
The AIM-54 Phoenix Long-range air-to-air missile, carried in clusters of up to six missiles on the F-14 Tomcat. The Phoenix missile is the Navy's only long-range air-to-air missile. It is an airborne weapons control system with multiple-target handling capabilities, used to kill multiple air targets with conventional warheads. The weapon system consists of an AIM-54 guided missile, interface system, and a launch aircraft with an AN/AWG-9 weapon control system. The AIM-54 is a radar-guided, air-to-air, long-range missile consisting of a guidance, armament, propulsion, and control section, interconnecting cables, wings and fins. The total weapon system has the capability to launch as many as six AIM-54 missiles simultaneously from the F-14 aircraft against an equal number of targets in all weather and heavy jamming environments.
The AIM-54 Phoenix Missile was developed in the 1970s as the principle long-range, air-to-air, defense armament of the F-14 Aircraft. The AIM-54 Phoenix Missile is a fielded weapon currently in Phase III, the Production, Fielding/Deployment, and Operational Support Phase of the Weapon System Acquisition Process.
The three versions of the AIM-54 Phoenix Missile currently being used are the AIM-54A, AIM-54C, and the AIM-54 ECCM/Sealed. The AIM-54 is a radar-guided, air-to-air, long-range missile consisting of a guidance, armament, propulsion, and control section, interconnecting cables, wings and fins. The AIM-54A was the original version to become operational. The improved Phoenix, the AIM-54C, can better counter projected threats from tactical aircraft and cruise missiles. The AIM-54C (sealed) missile is the most recent version and contains improved electronic counter-countermeasure capabilities and does not require coolant conditioning during captive flight. The AIM-54C and AIM-54C (sealed) contains built-in self test and additional missile on-aircraft test capability. The AIM-54C missile has also been designed for greater reliability, longer serviceable in-service time, and a 15 percent reduction in parts..................snipped
http://www.fas.org/man/dod-101/sys/missile/aim-54.htm
Is that what would happen? If you launch a mach-3 capable missile from a jet going mach-2, sure, on paper the speeds would theoretically add. But in real life I somehow doubt that would be the result.
Good point, I had forgotten about the thinner air at high altitude. I would thing they would check the viability of the SRB before test firing, but then again, the SRBs on the Challenger were checked as well.
Here's to a successful test.
From your link, the human scale. Those buggers are big.
I guess my tacit question is whether the body of the missile would remain in one piece at Mach 5. There's bound to be some serious heating from air-friction at such a speed and as others have pointed out, those things aren't exactly needles.
I could see where this would ruin a test. Thanks for the updated information.
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.