Dedicated to all those who served with or supported the 456th Fighter Squadron or 456th Fighter Interceptor Squadron or the UNITED STATES AIR FORCE

 

Click on Picture to enlarge

 

The Convair X-11 & X-12

 

The Convair X-11

 

Click on Picture to enlarge

The Convair X-11 Being Launched

The Convair X-11 (originally designated the Convair XSM-16A) was the first testbed for what became the Atlas missile program. Later the Convair X-12 became the second, more advanced testbed for the Atlas program.

 

Service History

A total of 12 X-11's were built and tested. The first three were involved in static tests only. X-11 Number 4 and 6, were destroyed in launch accidents. All others performed successful test flights. The test series began on June 11, 1957 and ended on June 3, 1958.

Specifications

General characteristics

Performance

(More Below)

Wikipedia

 

 

The Convair X-12

 

Click on Picture to enlarge

The Convair X-12 being launched

The Convair X-12 was the second, more advanced testbed for the Atlas rocket program. It was designed with 3 engines, its predecessor the Convair X-11 used only one engine. It was powered by a 1.5 stage liquid-fuel rocket. Its first flight was in July, 1958.

 

Service History

The X-12 pioneered the use of 1.5 stage rocket engines that became a hallmark of the Atlas rocket program. It was also the first rocket to achieve a flight distance that could be considered intercontinental when it flew 6,325 miles (10,179 km).

According to a 2001 article in Code One Magazine by Lockheed, no X-12 was ever built or flown, altough imagery (at right) seem to contradict that.

 

Specifications

General characteristics

Performance

 

(More Below)

Wikipedia,

 

 

The Convair X-11 & X-12

Convair B-65/SM-65/CGM-16/HGM-16 Atlas

The Atlas was the first Intercontinental Ballistic Missile (ICBM) deployed by the USA. Its descendents are still in use today as civilian and military space launch vehicles.

The Atlas development can be traced back to the days immediately after World War II, when captured German rocket and missile technology supported many new missile research studies. In April 1946, Consolidated-Vultee (later Convair) began project MX-774 to study long-range ballistic missiles. The studies led to the RTV-A-2 Hiroc test rocket, which tested several new design techniques which would later be used in the Atlas. These features included a gimballed nozzle, using the fuselage itself as fuel tank, and a separable nose cone. Altough MX-774 was cancelled in June 1947, Convair was allowed to complete three RTV-A-2 vehicles, and the first of these flew in July 1948. All three flights were only partially successful but helped a lot to validate the new design concepts.

After the cancellation of MX-774, Convair continued low-key internal studies on ballistic missiles, developing the idea of the "one and one half" stage rocket. In this type of design, both booster and sustainer engine(s) would ignite at lift-off, and the boosters would be dropped later in the flight. This circumvented the difficulty of having to ignite the sustainer at high altitude, which was then considered a potential problem. When military funding sharply increased after outbreak of the Korean War, Convair was awarded a contract for the long-range ballistic missile project MX-1593 in January 1951. Later in 1951, the USAF decided to assign aircraft-like designations to its guided missiles, and the designation B-65 was assigned to the MX-1593 missile (named Atlas by this time).

In 1953 Convair had completed the initial design studies. One radically new feature was the internal pressure stabilized flight structure. The missile's skin was very thin, and was inflated by internal pressure like a balloon. This significantly reduced the empty weight of the vehicle. However, it also made the missile rather fragile, because a single hole in the skin would lead to the collapse of the whole structure, just like a limp balloon. The initial Atlas design was a huge 27 m (90 ft) long, 3.6 m (12 ft) wide rocket, with five engines producing 2700+ kN (600000+ lb) of total thrust. The size was deemed necessary to launch the expected very heavy (65 ton) thermonuclear warhead to intercontinental range. Because of the limited accuracy of then available intercontinental guidance systems, a megaton-class thermonuclear warhead was necessary for the Atlas to be effective against hardened targets. A ten-year development program was approved, with an initial operational deployment planned for 1963. To minimize risk, it was decided to develop a single-engine test vehicle first, designated X-11, followed by a three-engine X-12 test vehicle and an XB-65 five-engine strategic missile prototype.

Click on Picture to enlarge

XB-65

In 1954, the H-bomb tests in the Pacific showed that the warhead for the Atlas could be made significantly smaller and lighter than expected. Therefore, the five-engine XB-65 design was cancelled and replaced by a much smaller three-engine design. The booster engines were North American (Rocketdyne) LR89, and the sustainer engine was a Rocketdyne LR105 enigne, both fueled with RP-1 (kerosene) and liquid oxygen. Two small Rocketdyne LR101 vernier engines were used for fine-tuning thrust and directional control. The whole Atlas propulsion system was known as MA-2. In 1955, in the light of discovering Russian ICBM activities, the Atlas development was accelerated, and it was approved to flight test preliminary prototype models which lacked some feartures of the planned production missile. The XB-65A Atlas A had only booster engines, and a dummy warhead. In August 1955, the USAF dropped all aircraft-like designations for guided missiles, and the Atlas became the SM-65.

On 11 June 1957 the first attempt to fly an XSM-65A was made, but due to a booster malfunction the missile had to be destroyed a few seconds after lift-off. The first successful Atlas A flight to the full range of 1100 km (600 nm) was the third one, on 17 December 1957. When Atlas A testing was completed in June 1958, flight tests continued with the XSM-65B Atlas B until December 1958. The XSM-65B tested all subsystems of the Atlas, including the full three-engine propulsion system. A maximum range of 10200 km (5500 nm) was reached. The XSM-65C Atlas C, flown between December 1958 and August 1959, tested the thin-skinned fuel tanks and the radio-command guidance in production configuration.

Click on Picture to enlarge

XSM-65B

In July 1959, the XSM-65D prototype of the initial production variant, the Atlas D, first flew. On 31 October 1959, the first U.S. Air Force ICBM squadron went on Combat Alert at Vandenberg AFB, with 3 SM-65D missiles on unprotected open launch pads. To give the Atlas at least some sort of protection, the follow-on bases were equipped with "coffins" to store the missiles. This coffin was a blast-protected building in which the Atlas was stored horizontally. Following the launch order, the roof of the coffin would slide away, the missile raised to the vertical, ready for fueling and launching. The Atlas ICBM had several significant operational shortcomings. It had to be fueled immediately before launch, leading to a high reaction time (about 15 minutes) after launch order. The fueling was also a very dangerous process which lead to several heavy explosions during operational tests. The radio-command/inertial guidance system of the Atlas D was susceptible to jamming and restricted the launch frequency of an Atlas D squadron to one missile every 5 minutes. The SM-65D used either Mk.2 or Mk.3 blunt reentry vehicles. There was also an unarmed training version of the SM-65D, designated USM-65D.

Click on Picture to enlarge

The SM-65E Atlas E was an improved SM-65D. It used a more accurate Mk.4 reentry vehicle, had an improved propulsion system (designated MA-3), and used an all-inertial guidance system developed by Bosch Arma, which was originally planned for the HGM-25A Titan I. With this navigation system, located in the distinctive large bulge on the side of the missile, the Atlas E could reach an accuracy of about 600 m (2000 ft) CEP. Component testing on modified Atlas D missiles began in March 1960, and in February 1961 the first full Atlas E flight occurred. The SM-65E became operational in September 1961. Because the all-inertial guidance system did away with the necessity to launch the missile close to the launch control center of the base, the Atlas E was deployed in widely dispersed patterns. Adding also new semi-buried coffins, the Atlas E was significantly better (but still not satisfactorily) protected against a preemptive strike than the D model. The USM-65E was the unarmed training version of the Atlas E.

Click on Picture to enlarge

SM-65E (CGM-16E)

SM-65F (HGM-16F

Because even the dispersed storage and semi-buried coffins of the Atlas E offered insufficient protection, the USAF decided already in 1959 to deploy Atlas missiles in underground silos, just like the HGM-25A Titan I. This resulted in the SM-65F Atlas F missile, which was essentially an SM-65E with a modified fueling system to accomodate the new silo launcher. The first silo-stored Atlas F squadron became operational in November 1962. Because the SM-65F could be fueled while still in the silo, launch survivability was much improved. After fueling, it took only two minutes to raise and launch the missile. In a crisis, it was even possible to store the SM-65F fully fueled in the silo for some length of time, which lead to a reaction time of only five minutes. However, fueling in the silo was even more dangerous than in the open, and four Atlas Fs violently exploded during this operation, destroying their silos.

In June 1963, the existing Atlas missiles were re-designted in the xGM-16 series as follows:

Old Designation New Designation
SM-65D CGM-16D
USM-65D CTM-16D
SM-65E CGM-16E
USM-65E CTM-16E
SM-65F HGM-16F

There are also sources which claim that the SM-65Ds based on unprotected pads at Vandenberg AFB were re-designated as PGM-16D. While this would be logical, the PGM-16D designation was apparently never officially allocated. Also, reports claiming that XPGM-16A, XPGM-16B, and XPGM-16C were the new designations for XSM-65A, XSM-65B, and XSM-65C, respectively, are in error, because all three development models had long been expended by 1963. While the 1963 redesignations did include some "paper" designations of retired or cancelled missiles, this was not true for the Atlas series.

Click on Picture to enlarge

Atlas family (D is shown with Mk.4 RV of E/F)

After the LGM-30 Minuteman had become operational in early 1963, the Atlas became rapidly obsolete. By October 1964, all Atlas D missiles had been phased out, followed by the Atlas E/F in April 1965. About 350 Atlas ICBMs of all versions were built, with a peak deployment level of 129 (30 D, 27 E, 72 F).

The Atlas was used as a space launch vehicle since the very beginning of the program, and Atlas developments are still used in this role in the 21st century. Converted ICBMs and early purpose-built space launchers, usually with additional upper stages, were used by the USAF under the basic SLV-3 designator. In 1990, the Atlas E, Atlas II and Atlas IIA/AS vehicles received the official military designations SB-1A, SB-2A and SB-2B, respectively. For details on Atlas launch vehicles, see page on SLV-3/SB-1/SB-2. Current prime contractor for all Atlas rockets is Lockheed Martin.

 

Note: Data given by several sources show slight variations. Figures given below may therefore be inaccurate!

Specifications

Data for CGM-16D/E and HGM-16F:

  CGM-16D CGM-16E/HGM-16F
Length 22.9 m (75 ft) 25.1 m (82 ft 6 in)
Diameter 3.05 m (10 ft)
Weight 118000 kg (260000 lb)
Speed 25000 km/h (15500 mph)
Ceiling 800 km (500 miles)
Range 10200 km (5500 nm)
Propulsion Booster: 2x Rocketdyne XLR89-NA-5; 666 kN (150000 lb) each
Sustainer: Rocketdyne XLR105-NA-5; 267 kN (60000 lb)
Vernier: 2x Rocketdyne LR101-NA-7; 4.5 kN (1000 lb) each
Booster: 2x Rocketdyne LR89-NA-5; 733 kN (165000 lb) each
Sustainer: Rocketdyne LR105-NA-5; 253 kN (57000 lb)
Vernier: 2x Rocketdyne LR101-NA-7; 4.5 kN (1000 lb) each
Warhead W-49 thermonuclear (1.45 MT) in Mk.2 or Mk.3 RV W-38 thermonuclear (4.5 MT) in Mk.4 RV

Main Sources

[1] James N. Gibson: "Nuclear Weapons of the United States", Schiffer Publishing Ltd, 1996
[2] Bill Gunston: "The Illustrated Encyclopedia of Rockets and Missiles", Salamander Books Ltd, 1979
[3] Jacob Neufeld: "Ballistic Missiles in the United States Air Force, 1945-1960", Office of Air Force Histoy, 1990
[4] Jay Miller: "The X-Planes X-1 to X-45", Midland Publishing, 2001


Military Rockets and Missiles

 

 

USE YOUR BROWSER "BACK" BUTTON TO RETURN TO PERVIOUS PAGE

Last Updated

02/10/2014

 

Powered By

456FIS.ORG