Everything about The Sm-65 Atlas totally explained
The
SM-65 Atlas was a missile built by the
Convair Division of
General Dynamics. Originally designed as an
ICBM in the late 1950s, Atlas was the foundation for a family of successful space
launch vehicles now built by
United Launch Alliance. The
Atlas rocket family is today used as a launch platform for commercial and military satellites, and other space vehicles.
History
The Atlas, first tested in 1957, was the
United States' first successful
ICBM (Intercontinental Ballistic Missile). It was a "
1.5 stage", liquid-fueled (
LOX and
RP-1)
rocket, with three engines producing 1,590 kN of
thrust.
Atlas, named for the
Atlas of
Greek mythology, got its start in 1946 with the award of an Army Air Forces research contract to Convair for the study of a 1,500 to 5,000 mi. (2,400 to 8,000 km) range nuclear armed missile. The Convair team was led by
Karel Bossart. This was the
MX-774 or
Hiroc project. The contract was canceled in 1947 but the Army Air Forces allowed Convair to launch the three almost-completed research vehicles using the remaining contract funds. The three flights were only partially successful. However they did show that balloon tanks, and gimbaled rocket engines were valid concepts. In 1955, the CIA learned that the Soviet ICBM program was making progress so Atlas became a crash program of the highest national importance.
The missile was originally given the military designation "XB-65", thus making it a bomber; from 1955 it was redesignated "SM-65" and, from 1962, it became "CGM-16". This letter "C" stood for "coffin" or "Container", the rocket being stored in a semi-hardened container; it was prepared for launch by being raised and fueled in the open. The Atlas-F (HGM-16) was stored vertically underground, but launched after being lifted to the surface.
Operational Atlas D were first deployed in "soft" sites featuring a 'hardened" Launch Control Center and three 'soft' launch pads. The guidance stations and antennas were also 'soft'. Later Atlas D bases were in "semi-hard" "coffin" sites where the missile was stored in a concrete structure horizontally and erected before fueling and launch. The Atlas E missiles were deployed in buried "semi-hardened" (harder than the D coffins) which functioned in the same fashion but each missile had its own LCC, allowing 'salvo' launches. The Atlas-F was deployed in a 175 Foot deep underground
missile silo that were "hardened" against all but a direct nuclear hit. Each silo had its own LCC. An Atlas F site could take an over pressure of 100 PSI and lateral ground movement of 1 Foot. These silos were usually located together in groups of 12 silos throughout the
midwest.
The only exception to this deployment strategy was the Atlas squadron that was deployed at
Plattsburgh AFB in New York State. This location, placed these Atlas missiles within striking range of soft targets located in the southern part of the Russian Federation and the Ukraine, of the then Union of Soviet Socialist Republics (
USSR). This was the first and thus far the only instance where land based ICBMs, loaded with live nuclear payloads, were deployed east of the
Mississippi river.
The 551st Strategic Missile Squadron (551st SMS) located in Southeastern Nebraska is an example of the underground silo. From the mid-1960s, the Atlas (and its 'bigger brother', the
Titan) were phased out in favor of the
LGM-30 Minuteman, a solid-fuelled rocket which could be stored for long periods and launched, without fueling, at the turn of a key.
The warhead of the Atlas D was originally the G.E. Mk 2 "heat sink" re-entry vehicle with a W-38 bomb. The Atlas E and F had an AVCO Mk 4 re-entry vehicle containing a W-38 thermonuclear bomb with a yield of 3.75 megatons which was fuzed for either air burst or contact burst. The Mk 4 RV also deployed penetration aids in the form of mylar balloons which replicated the radar signature of the Mk 4 RV.
Though never used in combat, the Atlas was used as the
expendable launch system with both the Agena and Centaur upper stages for the
Mariner space probes used to study
Mercury,
Venus, and
Mars (1962–1973); and to launch ten of the
Mercury program missions (1962–1963). Atlas was suggested for use by the
United States Air Force in what became known as
Project Vanguard. This suggestion was ultimately turned down, however, as Atlas wouldn't be operational in time and was seen by many as being too heavily connected to the military for use in the U.S.'
IGY satellite attempt.
However, the Atlas saw the beginnings of its "workhorse" status during the
Mercury-Atlas missions, which resulted in Lt. Col.
John H. Glenn Jr. becoming the first American to orbit the earth on February 20, 1962 (Major
Yuri A. Gagarin, a Soviet cosmonaut, was the first human in orbit on
April 12,
1961.) Atlas was also used throughout the mid-1960s to launch the
Agena Target Vehicles used during the
Gemini program. Direct Atlas descendants have continued to be used as satellite launch vehicles into the 21st century. An Atlas rocket is shown exploding, in the 1983 documentary film
Koyaanisqatsi, directed by
Godfrey Reggio, in the penultimate shot.
Design
Atlas was unusual in its use of
balloon tanks for fuel, made of very thin
stainless steel with minimal or no rigid support structures. Pressure in the tanks provides the structural rigidity required for flight. An Atlas rocket would collapse under its own weight if not kept pressurized, and had to have 5 psi nitrogen in the tank even when not fuelled. The only other known use of balloon tanks at the time of writing is the
Centaur high-energy
upper stage, although some rockets (such as the
Falcon series) use partially pressure-supported tanks. The rocket had two small rocket motors on the sides of the tank called
vernier rockets. These provided fine adjustment of velocity and steering after the sustainer engine shut down.
Atlas also had a unique and somewhat odd staging system. Most rockets stage by dropping both engines and fuel tanks. However, when the Atlas missile was being developed, there were considerable doubts as to whether or not a rocket motor could be ignited in space. Therefore, the decision was made to ignite all three of the Atlas' engines at launch—later, two of the engines would be discarded, while the third continued to burn. Rockets using this technique are sometimes called
stage-and-a-half boosters. This technique is made possible by the extremely light weight of the balloon tanks. The tanks make up such a small percentage of the total booster weight that the weight penalty of lifting them to orbit is less than the technical and weight penalty required to throw half of them away mid-flight. Depending on how you look at it, this makes Atlas a
single-stage-to-orbit booster (though most call it a 1.5 stage to orbit).
Sergey Korolyov made a similar choice for the same reason in the design of the
R-7, the Soviet's first ICBM, and the launcher of Sputnik and Vostok. He had a central sustainer section, with four boosters attached to its sides. All engines were started before launch, eliminating the still unexplored problem of igniting a large liquid fuel engine at high altitudes.
Current Atlas Family
The Atlas II series had 63 successful flights with the last launched
August 31,
2004, it's considered one of the most reliable launchers in the world.
The newest version of Atlas, the
Atlas V, is an Atlas in name alone as it contains little Atlas technology. It no longer uses balloon tanks nor 1.5 staging, but incorporates a rigid framework for its first stage booster much like the Titan family of vehicles. The rigid fuselage is heavier, but easier to handle and transport, eliminating the need for constant internal pressure.
Ironically, given Atlas's origin as a military ICBM weapon against the Soviet Union/Russia, the Atlas III and Atlas V use Russian-designed/built
NPO Energomash RD-180 engines. These engines are now prepared for license production by Pratt and Whitney company in the US.
Service history
The Atlas missiles were assigned to the following
Strategic Air Command units:
389th Strategic Missile Wing/706th Strategic Missile Wing/4320th Strategic Missile Wing - Francis E. Warren AFB, Wyoming
392d Strategic Missile Wing/704th Strategic Missile Wing - Vandenberg AFB, California
92d Strategic Aerospace Wing - Fairchild AFB, Washington
40th Strategic Aerospace Wing - Forbes AFB, Kansas
11th Strategic Aerospace Wing - Altus AFB, Oklahoma
96th Strategic Aerospace Wing - Dyess AFB, Texas
98th Strategic Aerospace Wing - Lincoln AFB, Nebraska
380th Strategic Aerospace Wing - Plattsburgh AFB, New York
310th Strategic Aerospace Wing - Schilling AFB, Kansas
6th Strategic Aerospace Wing - Walker AFB, New Mexico
Fairchild AFB, Vandenberg AFB,, Walker AFB, Dyess AFB, Altus AFB, Forbes AFB, Schilling Air Force Base, Lincoln AFB, Offutt AFB and Plattsburgh AFB.
The number of Atlas intercontinental ballistic missiles in service, by year:
CGM-16D Atlas Intercontinental Ballistic Missiles assigned:
1959 - 6
1960 - 12
1961 - 32
1962 - 32
1963 - 28
1964 - 13
CGM-16E Atlas Intercontinental Ballistic Missiles assigned:
1961 - 32
1962 - 32
1963 - 33
1964 - 30
HGM-16F Atlas Intercontinental Ballistic Missiles assigned:
1961 - 1
1962 - 80
1963 - 79
1964 - 75
Specifications (Atlas ICBM)
Length: 75 ft. 1 in. (22.9 m) with Mk 2 re-entry vehicle, 82 ft. 6 in. (25.2 m) with Mk 3
Diameter: 10 ft. 0 in. (3.05 m)
Launch weight: 255,000 lb. (116,000 kg) for Atlas D, 260,000 lb. (118,000 kg) for Atlas E and F
Range: 10,360 miles (16,670 km) for Atlas D, 11,500 miles (18,500 km) for Atlas E and F
Powerplant: 1 × Rocketdyne LR105 rocket engine with 57,000 lbf (254 kN) thrust, 2 × Rocketdyne LR89 rocket engines with 150,000 lbf (670 kN) thrust, 2 × Rocketdyne LR101 vernier rocket engines with 1,000 lbf (4.4 kN) of thrust
Warhead: Mk 4 re-entry vehicle with W-38 warhead (4 MT yield) (Atlas F)
CEP: 4,600 ft (1,400 m)Further Information
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