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GAM-63 Rascal
The GAM-63 RASCAL is a supersonic Air-to-surface missile that was developed by the Bell Aircraft Company. The RASCAL was the United States Air Force's first nuclear armed standoff missile. The RASCAL was initially designated the ASM-A-2, then re-designated the B-63 in 1951 and finally re-designated the GAM-63 in 1955. The name RASCAL was the acronym for RAdar SCAnning Link, the missile's guidance system. [1] The RASCAL project was cancelled in September 1958.
Contents
Development
During World War II, Nazi Germany air-launched 1,176 V-1 missiles from Heinkel He 111 bombers. The United States Army Air Forces (USAAF) studied this weapon system. Testing was conducted in the United States using B-17 bombers and the JB-2 Doodle Bug, a locally produced copy of the V-1. Successful testing of this combination led to the release of requirements to the aerospace industry for an air-to-surface missile on 15 July 1945.[2]
In March 1946 the USAAF began work on Project Mastiff, a nuclear armed air-to-surface drone or self controlled air-to-surface missile. Northrop Corporation, Bell, and Republic Aviation were invited by the USAAF to submit proposals for Mastiff. [3] Bell was awarded a feasibility study contract by the USAAF on 1 April 1946. Bell studied the feasibility of developing a subsonic "pilot-less" bomber carrying a substantial payload over a distance of 300 miles (482.8 km).[4]
After 18 months of study, Bell concluded that rocket propulsion was not capable of providing the performance needed to boost the missile the AAF wanted to a range of 300 miles (482.8 km).[4]. The range requirement was reduced to 100 miles (160.9 km) but other technical problems surfaced.[4]
The USAAF started Project MX-776. As a risk reduction measure, Project MX-776 was divided into two sub projects. The MX-776A development developed the RTV-A-4 Shrike later re-designated the X-9 as a testbed for the RASCAL that would be developed under project MX-776B. 22 X-9 missiles were launched between April 1949 and January 1953.[2]
Design
In May 1947, the USAAF awarded the Bell Aircraft Company a contract for the construction of a supersonic air-to-surface missile [2] compatible with the B-29 Superfortress, the B-36 bomber, and the B-50 Superfortress bomber. The missile was to have a range of 100 miles (160.93 km). [5], [6],[1] Bell's development effort was led by Walter R. Dornberger.[7]
The RASCAL design used the X-9's canard aerodynamic configuration and a rocket engine derived from the X-9's rocket-propulsion system.[4] The RASCAL was larger then the X-9 with a fuselage that was 9 ft (2.74 m) longer and 3 ft (.91 m) larger in diameter. The RASCAL's flight controls included forward and rear surfaces. Forward surfaces include fixed horizontal stabilizers and movable dorsal and ventral surfaces. Rear surfaces include wings with ailerons and fixed dorsal and ventral stabilizers. The aft lower stabilizer could be folded for ground handling.
The RASCAL was powered by a XLR67-BA-1 rocket engine also developed by Bell. The XLR-67 provided 10,440 lbf (46.4kN) [8] of thrust using three vertical in-line thrust chambers. All three thrust chambers of the XLR67 were operated during the missile's boost phase which could last up to two minutes. At the conclusion of the boost phase the upper and lower chambers of the XLR-67 were shut down and thrust was sustained by the center chamber alone.[1] Fuel for the XLR-67 included 600 gallons (2271 liters) of white fuming nitric acid oxidizer and 293 gallons (1109 liters) of JP-4 jet fuel.[1]. The oxidizer was stored in a series of tube bundles instead of a spherical storage tank. It is believed this configuration was chosen because it weighed less then a spherical tank of the same volume.
[9] Propellant was provided to the thrust chambers by a turbine driven propellant pump. A gas generator powered the propellant pump. The propellants were glow plug ignited. Bell contracted with Purdue University for the glow plug ignition system. Aerojet provided the pump drive assemblies.Cite error: Closing </ref>
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tag The command guidance system did not send a directional signal and was not encrypted which made it susceptible to detection and jamming.[1]
An inertial guidance system developed by Bell was used in the later GAM-63A version of the RASCAL. This improved guidance system decreased the CEP of RASCAL to 1,500 feet (457 m). [2] This system received reference information from the bomber prior to launch.[1] The accuracy claims of the inertial guidance system have been questioned by sources.[2],[1] This system could also be used to guide the missile throughout its flight to the target.[1]
The RASCAL's forward section was interchangeable for different targets. Using this capability the RASCAL could be equipped with nuclear, biological, chemical, blast, or incendiary warheads.[3] The requirements for biological and chemical warheads were dropped at the end of 1953.[3] On 5 December, 1949, requirements for the RASCAL called for a nuclear warhead weighing between 3,000 lb (1,361 kg) and 5,000 (2,268 kg).[3] The RASCAL warhead compartment accommodated a cylinder 3.8 ft (1.1 m) in diameter and 6.25 ft (1.9 m) long. The USAF also wanted the ability to use the RASCAL as a standard gravity bomb if the missile could not be readied for launch.[3]
In January 1950, Bell began to study what nuclear warheads were available for RASCAL.[3] The W-5 Nuclear Warhead was to initially considered. On 20 August, 1950 the Special Weapons Development Board (SWDB) authorized a W-5/RASCAL integration effort.[3] The Atomic Energy Commission (AEC) was responsible for developing the fuzing system for the RASCAL warhead. No provision was made for surface burst at this time.[3] In April 1952 fuze development was shifted to Bell which resulted because it was USAF policy to make airframe contractors responsible for nuclear weapons fuzing since this system needed to be integrated with the missiles guidance system.[3] Bell developed two complete fuzing systems, airburst or surface burst.[3] Then in March 1956 the W-5/RASCAL program was canceled.[3]
In July 1955, the W-27 Nuclear Warhead was considered as a replacement for the W-5 for the RASCAL.[10] USAF requirements for the W-27 called for a 2,800 lb (1,270 kg) nuclear warhead with ether electronic countermeasures equipment, infrared countermeasures equipment, or extra fuel to increase the range of the RASCAL..[3]. A design for the adaption kit between the W-27 and the RASCAL was completed in January 1957 before the RASCAL was canceled.[3]
Three bombers were originally considered as RASCAL launch platforms. The B-29 was removed from front line service while the RASCAL was in development.[2] In March 1952, the USAF then turned to the B-36 and B-47 as RASCAL missile carriers.[4] The B-36 was assigned first priority for the RASCAL.[4] The USAF Strategic Air Command did not agree with the decision to use the B-47 to carry the RASCAL. SAC wished to substitute the B-47 with the B-50 proposing to field a single squadron each of RASCAL equipped B-50's and B-36's. It was determined that RASCAL carrying B-50's would need to be based outside the United States because the B-50 would have less range while carrying the RASCAL.[1] The decision to eliminate the B-50 as a RASCAL carrier was not reached until June 1956.[1]A single B-50 was used as a launch platform in support of the RASCAL test program until 1955. A cradle lowered the RASCAL from the B-50's bomb bay before launch. The first powered RASCAL was launched from the test B-50 on 30 September 1952 at White Sands Missile Range, New Mexico in the United States[1]
In May 1953, 12 DB-36H "director-bombers" were ordered from Convair.[1] Each bomber would be equipped to carry a single RASCAL missile. The RASCAL occupied both of the B-36's aft bomb bays where it was carried semi-submerged. A portion of the missile was located inside the aircraft and a portion of the missile hung below the aircraft. One forward bomb bay was used to hold equipment required by the RASCAL's guidance system. The retractable antenna for the command guidance system was installed in the rear of the aircraft.
The first YDB-36H was flown on 3 July 1953. Six captive carry flights were flown between 31 July 1953 and 16 August 1953.[1] The addition of the missile to the B-36 did not increase drag or change the handling characteristics of the bomber.[1] An un-powered RASCAL was dropped from a YDB-36H on 25 August 1953. On 21 December 1954, a DB-36H was delivered to the Ar Force for use in the RASCAL test program at Holloman Air Force Base, New Mexico in the United States.[1] By June 1955, at least two missiles had been launched from the B-36 and Convair had completed manufacturing modification kits for the 12 planned aircraft. Two kits had been installed on B-36 aircraft when the USAF decided to carry the RASCAL only on the B-47 bomber.[1]
Before the end of 1952, Boeing received a contract from the USAF to modify two B-47B's into prototype RASCAL missile carriers. A removable missile support strut was installed on the right side of the B-47. Extra internal structure was installed to support the loads of the strut and missile. While carrying the RASCAL, the B-47 could not carry other weapons.[1] The guidance equipment for RASCAL was added to the B-47 bomb bay. The retractable antenna needed by RASCAL was added to the rear fuselage.[1] Both aircraft were sent to Holloman Air Force Base to support the RASCAL test program. After completion of the two DB-47B prototypes, the delays in the RASCAL's development effectively placed the DB-47 modification effort on hold until March 1955.[4] Then in June 1955, Boeing received a contract to modify 30 DB-47B's to carry the RASCAL.
The Strategic Air Command was concerned that externally mounting the RASCAL and the associated internal equipment needed to support the missile would seriously degrade the performance of the bomber. The performance impact was great enough to make the B-47/RASCAL combination of questionable value. [4] SAC also argued the B-47/RASCAL combination might never work well. Since the equipment being added to the B-47 to guide the missile added more complexity to the already complex B-47.[4] Then the modification costs required to carry the RASCAL added nearly $1 million US dollars to the cost of every B-47.[4] To SAC these costs seemed premature considering the state of the RASCAL's development at that time. [4] Finally SAC considered it unwise to commit aircraft and to start training crews before the missile's development had been completed.[4]
The USAF then decided to use the B-47E as a RASCAL missile carrier. Boeing was contracted to convert two B-47E into YDB-47E aircraft. The first YDB-47E flew in January 1954.[4] The first successful RASCAL launch from a DB-47E occurred in July 1955.[1]
RASCAL Test Launches at White Sands Missile Range
1951 | 1954 | 1955 | 1956 | 1957 | 1958 |
2 | 1 | 14 | 8 | 21 | 1 |
Operational History
In early 1956, the USAF limited DB-47E production to just two aircraft.[4] In May 1957 the USAF decided to field only one instead of two DB-47 squadrons equipped with the RASCAL missile.[4] Strategic Air Command leadership believed the RASCAL was already obsolete.[1],[4] By December 1957, the USAF 445th Bomb Squadron of the USAF 321st Bomb Wing was training with the RASCAL. The first production RASCAL was accepted at Pinecastle Air Force Base on 30 October, 1957.[1] Funding shortages would prevent facilities from being built at Pinecastle Air Force Base until 1959. In August 1958 a review of the previous 6 months RASCAL testing revealed that out of 65 scheduled test launches only one launch was a success. More than half of the test launches were canceled and most of the others were failures.[4]
On 29 September 1958 the USAF terminated the RASCAL program.[1],[4]
The AGM-28 Hound Dog replaced the GAM-63 program. The first flight tests of the Hound Dog were in April 1959, and the first operational Hound Dog was delivered to the USAF in December 1959. The first Hound Dog equipped SAC squadron reached initial operational capability in July 1960. The Hound Dog offered a weapon with nearly five times the range of the RASCAL, without command guidance, and without hazardous fuels to contend with.
Variants
- ASM-A-2 - RASCAL designation under the USAF 1947 to 1951 designation system.
- B-63 - RASCAL designation under the USAF 1951 to 1955 designation system.
- XGAM-63 - 75 Prototype RASCALs (Serial Numbers 53-8195 through 53-8269)[1]
- GAM-63A - 58 Production RASCALs (Serial Numbers 56-4469 through 56=4506)[1]
Operator
Survivors
- GAM-63 - American Legion Post 170, Rochelle Park, New Jersey, United States.
- GAM-63 - Air Force Space & Missile Museum, Cape Canaveral Air Force Station, Florida, United States.
- GAM-63 - Castle Air Museum, Atwater, California, United States.
- XGAM-63 - National Museum of the United States Air Force, Wright-Patterson Air Force Base, Dayton, Ohio, United States.
References
- ↑ 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.14 1.15 1.16 1.17 1.18 1.19 1.20 1.21 1.22 1.23 Jenkins, Dennis R. (July 1, 2006). Little RASCAL: the first stand-off weapon". Airpower, p. 44
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 Gibson, James N. (1996). Nuclear Weapons of the United States - An Illustrated History. Schiffer Publishing. ISBN 0-7643-0063-6.
- ↑ 3.00 3.01 3.02 3.03 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.11 3.12 Hansen, Chuck (1988). U.S. Nuclear Weapons - The Secret History. Aerofax, Arlington Texas. ISBN 0-517-56740-7
- ↑ 4.00 4.01 4.02 4.03 4.04 4.05 4.06 4.07 4.08 4.09 4.10 4.11 4.12 4.13 4.14 4.15 4.16 4.17 Knaack, Marcelle Size (1988). Encyclopedia of U.S. Air Force Aircraft and Missile Systems Volume II - Post-World War II Bombers 1945-1973. Office of Air Force History, USAF, Washington D.C. ISBN 0-912799-59-5
- ↑ Mark Wade, RASCAL, [1], retrieved on December 6, 2007.
- ↑ Aeronautical Systems Division History Office Website Development to Combat - Additional Technical Developments Chapter 7, [2], retrieved on December 6, 2007.
- ↑ Time Magazine Website. Changes of the week Nov 25, 1957, [3], retrieved on December 29, 2007.
- ↑ National Museum of the United States Air Force Website. BELL XGAM-63 RASCAL [4] retrieved on December 26, 2007.
- ↑ Emresman, C.M. and Boorady Fredrick A. (2007). Bell Aircraft Company from a Modest Beginning to a Major Aerospace Innovator. 43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit 8 - 11 July 2007, Cincinnati, OH
- ↑ Federation of American Scientists Website, Complete List of all U.S. Nuclear Weapons, [5], retrieved on December 8, 2007.
See also
Comparable aircraft
Designation sequence
- B- sequence: Convair B-60 - B-61 Matador - B-62 Snark - B-63 RASCAL - B-64 Navaho - B-65 Atlas - B-66 Destroyer
- M- sequence: TM-61 Matador - SM-62 Snark - GAM-63 RASCAL - SM-64 Navaho - SM-65 Atlas - GAM-67 Crossbow
Related lists
List of military aircraft of the United States
List of missiles
External links
- GAM-63 Raskcal Mark Fisher's Model Rocket Headquarters
- Shakit 1/72 scale model of the GAM-63
- Bertram Andres' Flugzeugmodelle (Airplane Models)
- Index of AGAM-63 RASCAL Images
- The Brookings Institution RASCAL page
- Bell ASM-A-2/B-63/GAM-63 Rascal Directory of U.S. Military Rockets and Missiles
- Rascal Encyclopedia Astronautica
- GAM-63 Rascal Federation of American Scientists
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