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19-480: (Redirected from W-80 ) W80 or W-80 may refer to: W80 (nuclear warhead) Ditrigonal dodecadodecahedron DSC-W80 , a digital camera made by Sony PENTAX Optio W80 , a digital camera Wakkanai Station , in Hokkaio, Japan Westland W-80 , an American helicopter design W80, a classification in masters athletics [REDACTED] Topics referred to by

38-448: A B-52 and flown from Minot Air Force Base , North Dakota, to Barksdale Air Force Base , Louisiana, on a mission to transport cruise missiles for decommissioning. It was not discovered that the six missiles had nuclear warheads until the plane landed at Barksdale, leaving the warheads unaccounted for, for over 36 hours. 5th Bomb Wing failed its nuclear surety inspection in late May 2008. 2nd Bomb Wing from Barksdale Air Force Base took over

57-402: A bright yellow color. TATB has been found to remain stable at temperatures at least as high as 250 °C for prolonged periods of time. TATB is produced by nitration of 1,3,5-trichlorobenzene to 1,3,5-trichloro-2,4,6-trinitrobenzene , then the chlorine atoms are substituted with amine groups using ammonolysis. However, it is likely that the production of TATB will be switched over to

76-468: A process involving the nitration and transamination of phloroglucinol , since this process is milder, cheaper, and reduces the amount of ammonium chloride salt produced in waste effluents (greener) . Still another process has been found for the production of TATB from materials that are surplus to military use. 1,1,1-trimethylhydrazinium iodide (TMHI) is formed from the rocket fuel unsymmetrical dimethylhydrazine ( UDMH ) and methyl iodide , and acts as

95-522: A very short time as measured in MW-Day/Ton burnup . Such low irradiation times limit the amount of additional neutron capture and therefore buildup of alternate isotope products such as Pu-240 in the rod, and also by consequence is considerably more expensive to produce, needing far more rods irradiated and processed for a given amount of plutonium. Submarine crew members routinely operate in proximity to stored weapons in torpedo rooms, in contrast to

114-399: Is different from Wikidata All article disambiguation pages All disambiguation pages W80 (nuclear warhead) The W80 is a low to intermediate yield two-stage thermonuclear warhead deployed by the U.S. enduring stockpile with a variable yield ("dial-a-yield") of 5 or 150 kilotonnes of TNT (21 or 628 TJ). It was designed for deployment on cruise missiles and

133-740: Is required, such as the explosives used in nuclear weapons , where accidental detonation during an airplane crash or rocket misfiring could potentially detonate the fissile core. All British nuclear warheads use TATB-based explosives in their primary stage . According to David Albright , South Africa's nuclear weapons used TATB to increase their safety. TATB is normally used as the explosive ingredient in plastic bonded explosive compositions, such as PBX-9502, LX-17-0, and PBX-9503 (with 15% HMX ). These formulations are described as insensitive high explosives (IHEs) in nuclear weapons literature. Though it could theoretically be mixed with other explosive compounds in castable mixtures or other use forms,

152-520: Is the warhead used in all nuclear-armed ALCM and ACM missiles deployed by the US Air Force , and in the US Navy 's BGM-109 Tomahawk . It is essentially a modification of the widely deployed B61 weapon, which forms the basis of most of the current US stockpile of nuclear gravity bombs. The very similar W84 warhead was deployed on the retired BGM-109G Ground Launched Cruise Missile . It

171-693: The National Nuclear Security Administration requested funding for the W80-4 ALT-SLCM variant of the warhead, for use on a new US Navy sea-launched cruise missile to be deployed in the late 2020s. TATB TATB is a very powerful explosive (somewhat less powerful than RDX , but more than TNT ), but it is extremely insensitive to shock , vibration , fire , or impact . Because it is so difficult to detonate by accident, even under severe conditions, it has become preferred for applications where extreme safety

190-626: The W80 in June 1976, with the brief of producing a custom weapon for the cruise missiles then under construction. With "the basic design" being derived from the B61 . The main design differences are presumably a smaller secondary producing only 150 kilotonnes of TNT (630 TJ) yield (the B61 producing a maximum of 170 kilotonnes of TNT (710 TJ) in the tactical variants and 340 kilotonnes of TNT (1,400 TJ) in

209-566: The air force where exposure to warheads is relatively brief. The first models were delivered in December 1983 and the Mod 0 went into full production in March 1984. Production of the W80 was completed by September 1990, although the exact date at which the respective Mod 0 and Mod 1 runs ended is not clear. A total of 1750 Mod 1 and 367 Mod 0 devices were delivered; 1,000 Mod 1 devices were deployed on

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228-445: The applications for such forms would be unclear since they would largely undo the insensitivity of pure TATB. At a pressed density of 1.80, TATB has a velocity of detonation of 7,350 meters per second. TATB has a crystal density of 1.93 grams/cm , though most forms currently in use have no higher density than 1.80 grams/cm . TATB melts at 350 °C. The chemical formula for TATB is C 6 (NO 2 ) 3 (NH 2 ) 3 . Pure TATB has

247-621: The original ALCM, another 400 on the later ACM , and 350 Mod 0s on the Tomahawk. Some of the original ALCMs would later have their mod 1 warheads removed and instead be fitted with conventional warheads producing the CALCM conversion. Under START II only 400 ACMs would have retained their nuclear warheads, and the rest would have been converted to CALCMs and their warheads removed to the inactive stockpile. On August 30, 2007, six cruise missiles armed with W80-1 warheads were mistakenly loaded onto

266-456: The primary in place of the conventional plutonium used in the Air Force's version. "Supergrade" is industry parlance for plutonium alloy bearing an exceptionally high fraction of Pu-239 (>95%), leaving a very low amount of Pu-240 which is a gamma emitter in addition to being a high spontaneous fission isotope . Such plutonium is produced from fuel rods that have been irradiated

285-675: The role until the wing was recertified on 15 August 2008. In 2014, a life extension program (LEP) for the W80-1 was started and the LEP warhead was given the W80-4 designation. The warhead will be used on the new AGM-181 LRSO cruise missile. The first production unit is expected to be completed in 2027. According to public descriptions of the program, the warhead will offer no increased military capability, only refurbishing and updating components, and increasing weapon safety and reliability. In FY2022,

304-448: The same term This disambiguation page lists articles associated with the same title formed as a letter–number combination. If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=W80&oldid=1177087352 " Category : Letter–number combination disambiguation pages Hidden categories: Short description

323-565: The strategic variants) and simplification of the design giving the weapon only two yield settings; 5 and 150 kilotonnes of TNT (21 and 628 TJ). Production of the W80 mod 1 ( W80-1 ) to arm the ALCM started in January 1979, and a number of warheads had been completed by January 1981 when the first low-temperature test was carried out. To everyone's surprise the test delivered a much lower yield than

342-468: Was designed at Los Alamos National Laboratory in Los Alamos, New Mexico . The W80 is physically quite small: the physics package itself is about the size of a conventional Mk.81 250-pound (110 kg) bomb, 11.8 inches (30 cm) in diameter and 31.4 inches (80 cm) long, and only slightly heavier at about 290 pounds (130 kg). The Los Alamos National Laboratory began development on

361-711: Was expected, apparently due to problems in the TATB based insensitive high explosives used to fire the primary. This problem turned out to affect several models of the B61-based line , and production of all weapons was suspended while a solution was worked on. Production restarted in February 1982. In March 1982, designers began working on a W80 variant intended for the Navy's Tomahawk program. The W80 mod 0 ( W80-0 ) used "supergrade" fission fuel, which has less radioactivity, in

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