Boeing B-52 Stratofortress

B-52 Stratofortress
A B-52H from Barksdale AFB flying over the desert
Role Strategic bomber
Manufacturer Boeing
First flight 15 April 1952
Introduction February 1955
Status Active: 85[1]
Reserve: 9[1]
Primary users United States Air Force
NASA
Produced 1952–62
Number built 744[2]
Unit cost B-52B: US$14.43 million[3]
B-52H: US$9.28 million (1962)
B-52H: US$53.4 million (1998)[1]

The Boeing B-52 Stratofortress is a long-range, subsonic, jet-powered strategic bomber. The B-52 was designed and built by Boeing, who have continued to provide support and upgrades. It has been operated by the United States Air Force (USAF) since the 1950s. The bomber carries up to 70,000 pounds (32,000 kg) of weapons.[4]

Beginning with the successful contract bid on 5 June 1946, the B-52 design evolved from a straight-wing aircraft powered by six turboprop engines to the final prototype YB-52 with eight turbojet engines and swept wings. The B-52 took its maiden flight in April 1952. Built to carry nuclear weapons for Cold War-era deterrence missions, the B-52 Stratofortress replaced the Convair B-36. Although a veteran of a number of wars, the Stratofortress has dropped only conventional munitions in combat. Its Stratofortress name is rarely used outside of official contexts; it has been referred to by Air Force personnel as the BUFF (Big Ugly Fat/Flying Fucker/Fellow).

The B-52 has been in active service with the USAF since 1955. The bombers flew under the Strategic Air Command (SAC) until it was disestablished in 1992 and its aircraft absorbed into the Air Combat Command (ACC); in 2010 all B-52 Stratofortreses were transferred from the ACC to the new Air Force Global Strike Command (AFGSC). Superior performance at high subsonic speeds and relatively low operating costs have kept the B-52 in service despite the advent of later aircraft, including the Mach 3 North American XB-70 Valkyrie, the variable-geometry Rockwell B-1B Lancer, and the stealthy Northrop Grumman B-2 Spirit. The B-52 marked its 50th anniversary of continuous service with its original operator in 2005.[N 1]

Contents

Development

Origins

On 23 November 1945, Air Materiel Command (AMC) issued desired performance characteristics for a new strategic bomber "capable of carrying out the strategic mission without dependence upon advanced and intermediate bases controlled by other countries".[10] The aircraft was to have a crew of five or more turret gunners, and a six-man relief crew. It was required to cruise at 300 mph (240 knots, 480 km/h) at 34,000 feet (10,400 m) with a combat radius of 5,000 miles (4,300 nautical mile, 8,000 km). The armament was to consist of an unspecified number of 20 mm cannon and 10,000 pounds (4,500 kg) of bombs.[11] On 13 February 1946, the Air Force issued bid invitations for these specifications, with Boeing, Consolidated Aircraft, and Glenn L. Martin Company submitting proposals.[11]

On 5 June 1946, Boeing's Model 462, a straight-wing aircraft powered by six Wright T35 turboprops with a gross weight of 360,000 pounds (160,000 kg) and a combat radius of 3,110 miles (2,700 nmi, 5,010 km), was declared the winner.[12] On 28 June 1946, Boeing was issued a letter of contract for US$1.7 million to build a full-scale mock-up of the new XB-52 and do preliminary engineering and testing.[13] However, by October 1946, the Air Force began to express concern about the sheer size of the new aircraft and its inability to meet the specified design requirements.[14] In response, Boeing produced Model 464, a smaller four-engine version with a 230,000 pound (105,000 kg) gross weight, which was briefly deemed acceptable.[14][15]

Subsequently, in November 1946, the Deputy Chief of Air Staff for Research and Development, General Curtis LeMay, expressed the desire for a cruise speed of 400 miles per hour (345 kn, 645 km/h), to which Boeing responded with a 300,000 lb (140,000 kg) aircraft.[16] In December 1946, Boeing was asked to change their design to a four-engine bomber with a top speed of 400 miles per hour, range of 12,000 miles (10,000 nmi, 19,000 km), and the ability to carry a nuclear weapon; in total, the aircraft could weigh up to 480,000 pounds (220,000 kg).[17] Boeing responded with two models powered by the T-35 turboprops. The Model 464-16 was a "nuclear only" bomber with a 10,000 pound (4,500 kg) payload, while the Model 464-17 was a general purpose bomber with a 9,000 pound (4,000 kg) payload.[17] Due to the cost associated with purchasing two specialized aircraft, the Air Force selected Model 464-17 with the understanding that it could be adapted for nuclear strikes.[18]

In June 1947, the military requirements were updated and the Model 464-17 met all of them except for the range.[19] It was becoming obvious to the Air Force that, even with the updated performance, the XB-52 would be obsolete by the time it entered production and would offer little improvement over the Convair B-36; as a result, the entire project was postponed for six months.[20] During this time, Boeing continued to perfect the design which resulted in the Model 464-29 with a top speed of 455 miles per hour (395 kn, 730 km/h) and a 5,000-mile range.[21] In September 1947, the Heavy Bombardment Committee was convened to ascertain performance requirements for a nuclear bomber. Formalized on 8 December 1947, these requirements called for a top speed of 500 miles per hour (440 kn, 800 km/h) and an 8,000 mile (7,000 nmi, 13,000 km) range, far beyond the capabilities of 464–29.[20][22]

The outright cancellation of the Boeing contract on 11 December 1947 was staved off by a plea from its president William McPherson Allen to the Secretary of the Air Force Stuart Symington.[23] Allen reasoned that the design was capable of being adapted to new aviation technology and more stringent requirements.[24] In January 1948 Boeing was instructed to thoroughly explore recent technological innovations, including aerial refueling and the flying wing.[25] Noting stability and control problems Northrop was experiencing with their YB-35 and YB-49 flying wing bombers, Boeing insisted on a conventional aircraft, and in April 1948 presented a US$30 million (US$274 million today[26]) proposal for design, construction, and testing of two Model 464-35 prototypes.[27] The Model 464-35 design bore similarity to a later Tupolev design that was built for the Soviet Union, the Tupolev Tu-95 Bear strategic bomber.[28] Further revisions during 1948 resulted in an aircraft with a top speed of 513 miles per hour (445 kn, 825 km/h) at 35,000 feet (10,700 m), a range of 6,909 miles (6,005 nmi, 11,125 km), and a 280,000 pounds (125,000 kg) gross weight which included 10,000 pounds (4,500 kg) of bombs and 19,875 US gallons (75,225 L) of fuel.[29][30]

Design effort

In May 1948, AMC asked Boeing to incorporate the previously discarded, but now more fuel-efficient, jet engine into the design.[31] This resulted in Boeing developing yet another revision – in July 1948, Model 464-40 substituted Westinghouse J40 turbojets for the turboprops.[32] The Boeing engineers took the Model 464-40 study to the Air Force Project Officer, and he was favorably impressed, especially since he had already been thinking along similar lines. Nevertheless, the government was still concerned about the high fuel consumption rate of the jet engines of the day, and directed that Boeing still use the turboprop-powered Model 464-35 as the basis for the XB-52. Although he agreed that turbojet propulsion was the future, General Howard A. Craig, Deputy Chief of Staff for Material, was not very keen on a jet-powered B-52, since he felt that the jet engine had still not progressed sufficiently to permit skipping an intermediate turboprop stage. However, Boeing was encouraged to continue with turbojet studies even though no commitment to jet propulsion could be expected.[33][34]

On Thursday, 21 October 1948, Boeing engineers George S. Schairer, Art Carlsen and Vaughn Blumenthal presented the design of a four-engine turboprop bomber to the Air Force chief of bomber development, Col. Pete Warden. Warden was disappointed by the projected aircraft and asked if the Boeing team could come up with a proposal for a four-engine turbojet bomber. Joined by Ed Wells, Boeing vice president of Engineering, the engineers worked that night in the Hotel Van Cleve redesigned Boeing's proposal as a four-engine turbojet bomber. On Friday, Col. Warden looked over the information and asked for a better design. Returning to the Hotel, the Boeing team was joined by Bob Withington and Maynard Pennell, two top Boeing engineers who were in town on other business.[35]

By late Friday night, they had laid out what was essentially a new airplane. The new design (464–49) built upon the basic layout of the B-47 Stratojet with 35 degree swept wings, eight engines paired in four underwing pods, and bicycle landing gear with wingtip outrigger wheels.[36] A notable feature of the landing gear was the ability to pivot the main landing gear up to 20° from the aircraft centerline to increase safety during crosswind landings.[37] After a trip to a hobby shop for supplies, Schairer set to work building a model. The rest of the team focused on weight and performance data. Wells, who was also a skilled artist, completed the aircraft drawings. On Sunday, a stenographer was hired to type a clean copy of the proposal. On Monday, Schairer presented Col. Warden with a neatly bound 33-page proposal and a 14-inch scale model.[35] The aircraft was projected to exceed all design specifications.[38]

Although the full-size mock-up inspection in April 1949 was generally favorable, range again became a concern since the J40s and early model J57s had excessive fuel consumption.[39] Despite talk of another revision of specifications or even a full design competition among aircraft manufacturers, General LeMay, now in charge of Strategic Air Command, insisted that performance should not be compromised due to delays in engine development.[40][41] In a final attempt to increase range, Boeing created the larger 464-67, stating that once in production, the range could be further increased in subsequent modifications.[42] Following several direct interventions by LeMay,[43] Boeing was awarded a production contract for 13 B-52As and 17 detachable reconnaissance pods on 14 February 1951.[44] The last major design change, also at the insistence of General LeMay, was a switch from the B-47 style tandem seating to a more conventional side-by-side cockpit which increased the effectiveness of the copilot and reduced crew fatigue.[45] Both XB-52 prototypes featured the original tandem seating arrangement with a framed bubble-type canopy.[46]

Pre-production

The YB-52, the second XB-52 modified with more operational equipment, first flew on 15 April 1952 with "Tex" Johnston as pilot.[47][48][N 2] A 2 hour, 21-minute proving flight from Boeing Field, King County, near Seattle, Washington to Larson AFB was undertaken with Boeing test pilot Alvin M. Johnston and Air Force Lieutenant Colonel Guy M. Townsend.[49] The XB-52 followed on 2 October 1952.[50] The thorough development, [N 3] including 670 days in the wind tunnel and 130 days of aerodynamic and aeroelastic testing, paid off with smooth flight testing. Encouraged, the Air Force increased its order to 282 B-52s.[52]

Production and improvements

Only three of the 13 B-52As ordered were built.[53] All were returned to Boeing, and used in their test program.[54] On 9 June 1952, the February 1951 contract was updated to order the aircraft under new specifications. The final 10, the first aircraft to enter active service, were completed as B-52Bs.[54] At the roll out ceremony on 18 March 1954, Air Force Chief of Staff General Nathan Twining said:

The long rifle was the great weapon of its day. ...today this B-52 is the long rifle of the air age.[55][56]

The B-52B was followed by progressively improved bomber and reconnaissance variants, culminating in the B-52G and B-52H. To allow rapid delivery, production lines were set up both at its main Seattle factory and at Boeing's Wichita facility. More than 5,000 companies were involved in the massive production effort, with 41% of the airframe being built by subcontractors.[57] The prototypes and all B-52A, B and C models (90 aircraft)[58] were built at Seattle. Testing of aircraft built at Seattle caused problems due to jet noise, which led to the establishment of curfews for engine tests. Aircraft were thus ferried on their maiden flights to Larson Air Force Base, 150 miles (241 km) away, where they were fully tested.[59] As production of the B-47 came to an end, the Wichita factory was phased in for B-52D production, with Seattle responsible for 101 Ds and Wichita 62.[60] Both plants continued to build the B-52E, with 42 built at Seattle and 58 at Wichita,[61] and the B-52F (44 from Seattle and 45 from Wichita).[62] For the B-52G, it was decided in 1957 to transfer all production to Wichita, which freed up Seattle for other tasks (in particular the production of airliners).[63][64] Production ended in 1962 after 744 aircraft were built.[65]

Aircraft deliveries
B-52A[54] B-52B[3] B-52C[66] B-52D[67] B-52E[68] B-52F[69] B-52G[70] B-52H[71]
Fiscal Year
FY 54 3
FY 55 13
FY 56 35 5 1
FY 57 2 30 92
FY 58 77 100 10
FY 59 79 50
FY 60 106
FY 61 37 20
FY 62 68
FY 63 14

Design

Overview

In November 1959 SAC initiated the Big Four modification program (also known as Modification 1000) for all operational B-52s except early B models, intended to improve the aircraft's combat capabilities in the changing strategic environment.[72][73] The program was completed by 1963.[74] The four modifications were the ability to launch AGM-28 Hound Dog standoff nuclear missiles and ADM-20 Quail decoys, an advanced electronic countermeasures (ECM) suite, and upgrades to perform the all-weather, low-altitude (below 500 feet or 150 m) interdiction in the face of advancing missile air defenses.[74] The switch to low-altitude flight was estimated to accelerate structural fatigue by at least a factor of eight, which required costly repairs to extend service life. The first program to counter structural fatigue was the three-phase High Stress program in the early 1960s, which enrolled aircraft at 2,000 flying hours.[72][75]

Follow-up programs addressing fatigue were conducted, such as a 2,000-hour service life extension to select airframes in 1966–1968, and the extensive Pacer Plank reskinning, completed in 1977.[64][77] The wet wing introduced on G and H models was even more susceptible to fatigue due to experiencing 60% more stress during flight than the old wing. The wings were modified by 1964 under ECP 1050.[78] This was followed by a fuselage skin and longeron replacement (ECP 1185) in 1966, and the B-52 Stability Augmentation and Flight Control program (ECP 1195) in 1967.[78] Fuel leaks due to deteriorating Marman clamps continued to plague all variants of the B-52. To this end, the aircraft were subjected to Blue Band (1957), Hard Shell (1958), and finally QuickClip (1958) programs. The latter fitted safety straps which prevented catastrophic loss of fuel in case of clamp failure.[79]

For a study for the U.S. Air Force in the mid-1970s, Boeing investigated replacing the engines, changing to a new wing, and other improvements to upgrade B-52G/H aircraft as an alternative to the B-1A, then in development.[80] Boeing later suggested re-engining the B-52H fleet with the Rolls-Royce RB211 535E-4.[81] This would involve replacing the eight Pratt & Whitney TF33s (total thrust 8 × 17,000 lb) with four RB211s (total thrust 4 × 37,400 lb); which would increase range and reduce fuel consumption, at a cost of approximately US$2.56 billion for the whole fleet (71 aircraft at $36 million each). A Government Accountability Office study concluded that Boeing's estimated savings of US$4.7 billion would not be realized and that it would cost US$1.3 billion over keeping the existing engines; citing significant up-front procurement and re-tooling expenditure, and the RB211's higher maintenance cost. The GAO report was subsequently disputed in a Defense Sciences Board report in 2003; the Air Force was urged to re-engine the aircraft without delay.[82] Further, the DSB report stated the program would have significant savings, reduce greenhouse gas emissions, and increase aircraft range and endurance; in line with the conclusions of a separate Congress-funded study conducted in 2003.[83] The re-engining has not been approved as of 2010.

In September 2006, the B-52 became one of the first US military aircraft to fly using alternative fuel. It took off from Edwards Air Force Base with a 50/50 blend of Fischer-Tropsch process (FT) synthetic fuel and conventional JP-8 jet fuel which was burned in two of the eight engines.[84] On 15 December 2006, a B-52 took off from Edwards with the synthetic fuel powering all eight engines, the first time an Air Force aircraft was entirely powered by the blend. The seven hour flight was considered a success.[84] This program is part of the Department of Defense Assured Fuel Initiative, which aims to reduce crude oil usage and obtain half of its aviation fuel from alternative sources by 2016.[84] On 8 August 2007, Air Force Secretary Michael Wynne certified the B-52H as fully approved to use the FT blend.[85] With the success upon the B-52, the Air Force intends to certify every airframe in its inventory to use the fuel by 2011.[85]

Avionics

Ongoing problems with avionics systems were addressed in the Jolly Well program, completed in 1964, which improved components of the AN/ASQ-38 bombing navigational computer and the terrain computer. The MADREC (Malfunction Detection and Recording) upgrade fitted to most aircraft by 1965 could detect failures in avionics and weapons computer systems, and was essential in monitoring the Hound Dog missiles. The electronic countermeasures capability of the B-52 was expanded with Rivet Rambler (1971) and Rivet Ace (1973).[86]

To improve safe day and night operations at low altitude, the AN/ASQ-151 Electro-Optical Viewing System (EVS), which consisted of a Low Light Level Television (LLLTV) and a Forward looking infrared (FLIR) system mounted in blisters under the noses of B-52Gs and Hs between 1972 and 1976.[87] The navigational capabilities of the B-52 were later augmented with the addition of GPS in the 1980s.[88] The IBM AP-101, also used on the B-1B Lancer bomber and the Space Shuttle, was the B-52's main computer.[89]

In 2007 the LITENING targeting pod was fitted, which increases the combat effectiveness of the aircraft during day, night and poor weather conditions in the attack of ground targets with a variety of standoff weapons, using laser guidance under the guidance, a high resolution forward-looking infrared sensor (FLIR) and a CCD camera used to obtain target imagery.[90] LITENING pods have been fitted to a wide variety of other US aircraft, such as the McDonnell Douglas F/A-18 Hornet, the General Dynamics F-16 Fighting Falcon and the McDonnell Douglas AV-8B Harrier II.[91]

Weapons

The ability to carry up to 20 AGM-69 SRAM nuclear missiles was added to G and H models, starting in 1971.[92] To further improve the B-52's offensive ability, Air Launched Cruise Missiles (ALCMs) were fitted.[93] After testing of both the Air Force-backed Boeing AGM-86 and the Navy-backed General Dynamics AGM-109 Tomahawk, the AGM-86B was selected for operation by the B-52 (and ultimately by the B-1 Lancer).[94] A total of 194 B-52Gs and Hs were modified to carry AGM-86s, carrying 12 missiles on underwing pylons, with 82 B-52Hs further modified to carry another eight missiles on a rotary launcher fitted in the aircraft's bomb-bay. To conform with the requirements of the SALT II Treaty for cruise missile capable aircraft to be readily identified by reconnaissance satellites, the cruise missile armed B-52Gs were modified with a distinctive wing root fairing. As all B-52Hs were assumed to be modified, no visual modification of these aircraft was required.[95] In 1990, the stealthy AGM-129 ACM cruise missile entered service; although intended to replace the AGM-86, a high cost and the Cold War's end led to only 450 being produced; unlike the AGM-86, no conventional (non-nuclear) version was built.[96] The B-52 was to have been modified to utilize Northrop Grumman's AGM-137 TSSAM weapon; however, the missile was canceled due to development costs.[97]

Those B-52Gs not converted as cruise missile carriers were subject to a series of modifications to improve their conventional bombing capability, being fitted with a new Integrated Conventional Stores Management System (ICSMS) and new underwing pylons which were able to be fitted with larger bombs or other stores than could be carried on the external pylons. 30 B-52s were further modified to carry up to 12 AGM-84 Harpoon anti-ship missiles each, while 12 B-52Gs were fitted to carry the AGM-142 Have Nap stand-off air-to-ground missile.[98] When the B-52G was retired in 1994, an urgent scheme was launched to restore an interim Harpoon and Have nap capability (the Have Nap missile was only carried by the B-52, and allowed stand-off attacks on targets while maintaining a "man-in-the-loop" of the guidance system[99][100]), the four aircraft being modified to carry Harpoon and four to carry Have Nap under the Rapid Eight program.[101]

The Conventional Enhancement Modification (CEM) program gave the B-52H a more comprehensive conventional weapons capability, adding the modified underwing weapon pylons used by conventional-armed B-52Gs, Harpoon and Have Nap, and the capability to carry new-generation weapons including the Joint Direct Attack Munition and Wind Corrected Munitions Dispenser guided bombs, the AGM-154 glide bomb and the (later cancelled) AGM-158 JASSM missile. The CEM program also introduced new radios, integrated Global Positioning System into the aircraft's navigation system and replaced the under-nose FLIR with a more modern unit. Forty-seven B-52Hs were modified under the CEM program by 1996, with 19 more by the end of 1999.[102][103]

Costs

X/YB-52 B-52A B-52B B-52C B-52D B-52E B-52F B-52G B-52H
Unit R&D cost 100 million (1955)
820 million (current)
Airframe 26.433 M (1955) 11.328 M (1955) 5.359 M (1955) 4.654 M (1955) 3.700 M (1955) 3.772 M (1955) 5.352 M (1955) 6.076 M (1955)
Engines 2.848 M (1955) 2.547 M (1955) 1.513 M (1955) 1.291 M (1955) 1.257 M (1955) 1.787 M (1955) 1.428 M (1955) 1.640 M (1955)
Electronics 50,761 (1955) 61,198 (1955) 71,397 (1955) 68,613 (1955) 54,933 (1955) 60,111 (1955) 66,374 (1955) 61,020 (1955)
Armament and
ordnance
57,067 (1955)
468,063 (current)
494 K (1955)
4.05 M (current)
304 K (1955)
2.5 M (current)
566 K (1955)
4.645 M (current)
936 K (1955)
7.68 M (current)
866 K (1955)
7.1 M (current)
847 K (1955)
6.95 M (current)
1.508 M (1955)
12.4 M (current)
Flyaway cost 28.38 M (1955)
232.8 M (current)
14.43 M (1955)
118.4 M (current)
7.24 M (1955)
59.4 M (current)
6.58 M (1955)
54 M (current)
5.94 M (1955)
48.7 M (current)
6.48 M (1955)
54 M (current)
7.69 M (1955)
63.1 M (current)
9.29 M (1955)
76.2 M (current)
Maintenance cost
per flying hour
925 (1955)
7,587 (current)
1,025 (1955)
8,407 (current)
1,025 (1955)
8,407 (current)
1,182 (1955)
9,695 (current)

Note: The original costs were in approximate 1955 United States dollars.[104] Figures in tables noted with current have been adjusted for inflation.

Operational history

Introduction

Although the B-52A was the first production variant, these aircraft were used only in testing. The first operational version was the B-52B that had been developed in parallel with the prototypes since 1951. First flying in December 1954, B-52B, AF Serial Number 52-8711, entered operational service with 93rd Heavy Bombardment Wing (93rd BW) at Castle Air Force Base, California, on 29 June 1955. The wing became operational on 12 March 1956. The training for B-52 crews consisted of five weeks of ground school and four weeks of flying, accumulating 35 to 50 hours in the air. The new B-52Bs replaced operational B-36s on a one-to-one basis.[105]

Early operations were problematic;[106] in addition to supply problems, technical issues also struck.[107] Ramps and taxiways deteriorated under the weight of the aircraft, while the fuel system was prone to leaks and icing,[108] and bombing and fire control computers were unreliable.[107] The two-story cockpit presented a unique climate control problem – the pilots' cockpit was heated by sunlight while the observer and the navigator on the bottom deck sat on the ice-cold floor. Thus, comfortable temperature setting for the pilots caused the other crew members to freeze, while comfortable temperature for the bottom crew caused the pilots to overheat.[109] The J57 engines were still new and unreliable. Alternator failure caused the first fatal B-52 crash in February 1956,[110] which resulted in a brief grounding of the fleet. In July, fuel and hydraulic system problems again grounded the B-52s. To avoid maintenance problems, the Air Force set up "Sky Speed" teams of 50 maintenance contractors at each B-52 base. In addition to maintenance, the teams performed routine checkups which took one week per aircraft.[111]

On 21 May 1956, a B-52B (52-0013) dropped a Mk-15 nuclear bomb over the Bikini Atoll in a test code-named Cherokee. It was the first air dropped thermonuclear weapon.[112] From 24 to 25 November 1956, four B-52Bs of the 93rd BW and four B-52Cs of the 42nd BW flew nonstop around the perimeter of North America in Operation Quick Kick, which covered 15,530 miles (13,500 nmi, 25,000 km) in 31 hours, 30 minutes. SAC noted the flight time could have been reduced by 5 to 6 hours if the four inflight refuelings were done by fast jet-powered tanker aircraft rather than propeller-driven Boeing KC-97 Stratotankers.[113] In a demonstration of the B-52's global reach, from 16 to 18 January 1957, three B-52Bs made a non-stop flight around the world during Operation Power Flite, during which 24,325 miles (21,145 nmi, 39,165 km) was covered in 45 hours 19 minutes (536.8 smph) with several in-flight refuelings by KC-97s.[114] The 93rd Bomb Wing received the Mackay Trophy for their accomplishment.[112]

The B-52 set many records over the next few years. On 26 September 1958, a B-52D set a world speed record of 560.705 miles per hour (487 kn, 902 km/h) over a 10,000 kilometers (5,400 nmi, 6,210 mi) closed circuit without a payload. The same day, another B-52D established a world speed record of 597.675 miles per hour (519 kn, 962 km/h) over a 5,000 kilometer (2,700 nmi, 3,105 mi) closed circuit without a payload.[77] On 14 December 1960, a B-52G set a world distance record by flying unrefueled for 10,078.84 miles (8,762 nmi, 16,227 km); the flight lasted 19 hours 44 minutes (510.75 mph).[115] From 10 to 11 January 1962, a B-52H set a world distance record by flying unrefueled, surpassing the prior B-52 record set two years earlier, from Kadena Air Base, Okinawa, Japan, to Torrejon Air Base, Spain, which covered 12,532.28 miles (10,895 nmi, 20,177 km).[71] The flight passed over Seattle, Fort Worth and the Azores.

Originally there were concerns about the lifespan of the fleet. Several projects beyond the B-52, the Convair B-58 Hustler and North American XB-70 Valkyrie, had either been aborted or proved disappointing in light of changing requirements, which left the older B-52 as the main bomber as opposed to the planned successive aircraft models.[116][117] On 19 February 1965, General Curtis E. LeMay testified to Congress that the lack of a followup bomber project to the B-52 raised the danger that, "The B-52 is going to fall apart on us before we can get a replacement for it."[118]

Cold War

When the B-52 entered into service, the Strategic Air Command (SAC) intended for it to be used to deter and counteract the vast and modernizing Soviet military. As the Soviet Union increased its nuclear capabilities, destroying or "countering" the forces that would deliver nuclear strikes (bombers, missiles, etc.) became of great strategic importance.[119] The Eisenhower administration endorsed this switch in focus; the President in 1954 expressing a preference for military targets over those of civilian ones, a principle reinforced in the Single Integrated Operation Plan (SIOP), a plan of action in the case of nuclear war breaking out.[120]

Throughout the Cold War, B-52s performed airborne alert patrols under code names such as Head Start, Chrome Dome, Hard Head, Round Robin, and Giant Lance. Bombers loitered at high altitude near points outside the Soviet Union to provide rapid first strike or retaliation capability in case of nuclear war.[121] This was a part of the role of deterrence to the Soviet Union via the concept of Mutually Assured Destruction.[122]

Due to the late 1950s era threat of surface-to-air missiles (SAMs) that could threaten high-altitude aircraft,[123][124] seen in practice in the 1960 U-2 incident,[125] the intended use of B-52 was changed to serve as a low-level penetration bomber during a foreseen attack upon the Soviet Union, as terrain masking provided an effective method of avoiding radar and thus the threat of the SAMs.[73]

Although never intended for the low-level role, the B-52's flexibility allowed it to outlast several intended successors as the nature of the air warfare environment changed. The B-52's large airframe with internal room allowed the addition of improved electronic countermeasures suites and other adaptions to be made over time.[86] Other aircraft, such as the General Dynamics F-111 Aardvark, complemented the B-52 in roles the aircraft was not as capable in, such as missions involving high-speed, low-level penetration dashes.[126]

The B-52's official name Stratofortress has been rarely used in informal circumstances; it has become common among personnel to refer to the aircraft as the BUFF (Big Ugly Fat Fucker).[127][N 4]

Vietnam War

With the escalating situation in Southeast Asia, 28 B-52Fs were fitted with external racks for 24x 750 pound (340 kg) bombs under project South Bay in June 1964; an additional 46 aircraft received similar modifications under project Sun Bath.[62] In March 1965, the United States commenced Operation Rolling Thunder. The first combat mission, Operation Arc Light, was flown by B-52Fs on 18 June 1965, when 30 bombers of the 9th and 441st Bombardment Squadrons struck a communist stronghold near the Bến Cát District in South Vietnam. The first wave of bombers arrived too early at a designated rendezvous point, and while maneuvering to maintain station, two B-52s collided, which resulted in the loss of both bombers and eight crewmen. The remaining bombers, minus one more which turned back due to mechanical problems, continued on towards the target.[129] Twenty-seven Stratofortresses dropped on a one-mile by two-mile target box from between 19,000 and 22,000 feet, a little more than 50 percent of the bombs falling within the target zone.[130] The force returned to Andersen AFB except for one bomber with electrical problems that recovered to Clark AFB, the mission having lasted 13 hours. Post-strike assessment by teams of South Vietnamese troops with American advisors found evidence that the VC had departed the area before the raid, and it was suspected that infiltration of the south's forces may have tipped off the north because of the ARVN troops involved in the post-strike inspection.[131]

Beginning in late 1965, a number of B-52Ds underwent Big Belly modifications to increase bomb capacity for carpet bombings.[132] While the external payload remained at 24× 500 pound (227 kg) or 750 pound (340 kg) bombs, the internal capacity increased from 27 to 84× 500 pound bombs or from 27 to 42× 750 pound bombs.[133] The Big Belly modification created enough capacity for a total of 60,000 pounds (27,215 kg) in 108 bombs. Thus modified, B-52Ds could carry 22,000 pounds (9,980 kg) more than B-52Fs.[134] Designed to replace B-52Fs, modified B-52Ds entered combat in April 1966 flying from Andersen Air Force Base, Guam. Each bombing mission lasted 10 to 12 hours with an aerial refueling by KC-135 Stratotankers.[47] In spring 1967, the aircraft began flying from U Tapao Airfield in Thailand giving the aircraft the advantage of not requiring in-flight refueling.[133]

On 22 November 1972, a B-52D (55-0110) from U-Tapao was hit by a surface-to-air missile (SAM) while on a raid over Vinh. The crew was forced to abandon the damaged aircraft over Thailand. This was the first B-52 to be destroyed by hostile fire in Vietnam.[135] In total, 30 B-52s were lost during the war, which included 10 B-52s shot down over North Vietnam and five others being damaged and crashing in Laos or Thailand.[136]

The zenith of B-52 attacks in Vietnam was Operation Linebacker II (sometimes referred to as the Christmas Bombing) which consisted of waves of B-52s (mostly D models, but some Gs without jamming equipment and with a smaller bomb load). Over 12 days, B-52s flew 729 sorties[137] and dropped 15,237 tons of bombs on Hanoi, Haiphong, and other targets.[138][139] Originally 42 B-52s were committed to the war; however, numbers were frequently twice this figure.[140] The B-52's usage had been highly important in the war, although their lack of precision weapons translated to limited deployment; American journalist and war correspondent Neil Sheehan described their role in the war:

The B-52s were restricted to bombing suspected Communist bases in relatively uninhabited sections, because their potency approached that of a tactical nuclear weapon. A formation of six B-52s, dropping their bombs from 30,000 feet, could "take out"... almost everything within a "box" approximately five-eights mile wide by two miles long. Whenever Arc Light struck... in the vicinity of Saigon, the city woke from the tremor.[141]

During Operation Linebacker II, there are fifteen B-52s shot down, five B-52s heavy damaged (1 crashed in Laos), five B-52s medium damaged. Total B-52s casualty and loss are twenty-five [142](34 through Vietnam's claim)[143]. Two Vietnamese pilots shot down B-52s are Pham Tuan and Vu Xuan Thieu[144].

Air-to-air victories

During the Vietnam War, B-52D tail gunners were credited with shooting down two MiG-21 "Fishbeds". On 18 December 1972, tail gunner SSgt Samuel O. Turner's B-52 had just completed a bomb run for Operation Linebacker II and was turning away when a North Vietnamese Air Force MiG-21 approached.[145] The MiG and the B-52 locked onto one another. When the fighter drew within range, Turner fired his quad (four guns on one mounting) .50 caliber machine guns.[146] The MiG exploded aft of the bomber,[145] a victory confirmed by MSG Lewis E. Le Blance, the tail gunner in a nearby Stratofortress. Turner received a Silver Star for his actions.[147] His B-52, tail number 55-0676, is preserved on display with air-to-air kill markings at Fairchild AFB in Spokane, Washington.[145]

On 24 December 1972, during the same bombing campaign, the B-52 Diamond Lil was headed to bomb the Thái Nguyên railroad yards when tail gunner A1C Albert E. Moore spotted a fast-approaching MiG-21.[148] Moore opened fire with his quad fifties at 4,000 yards (3,700 m), and kept shooting until the fighter disappeared from his scope. TSG Clarence W. Chute, a tail gunner aboard another Stratofortress, watched the MiG catch fire and fall away. The Diamond Lil is preserved on display at the United States Air Force Academy in Colorado.[148] Moore was the last recorded bomber gunner to shoot down an enemy aircraft with machine guns in aerial combat.[146]

Vietnamese sources have attributed a third air-to-air victory to a B-52, a MiG-21 shot down on 16 April 1972.[149] These victories make the B-52 the largest aircraft to be credited with air-to-air kills.[N 5] The last Arc Light mission without fighter escort took place on 15 August 1973, as U.S. military action in Vietnam was wound down.[150]

Post Vietnam service

B-52Bs reached the end of their structural service life by the mid-1960s and all were retired by June 1966, followed by the last of the B-52Cs on 29 September 1971; except for NASA's B-52B "008" which was eventually retired in 2004 at Edwards AFB, California.[151] Another of the remaining B Models, "005" is on display at the Wings Over the Rockies Air and Space Museum in Denver, Colorado.[152]

A few time-expired E models were retired in 1967 and 1968, but the bulk (82) were retired between May 1969 and March 1970. Most F models were also retired between 1967 and 1973, but 23 survived as trainers until late 1978. The fleet of D models served much longer; eighty D models were extensively overhauled under the Pacer Plank program during the mid-1970s.[153] Skinning on the lower wing and fuselage was replaced, and various structural components were renewed. The fleet of D models stayed largely intact until late 1978, when 37 not already upgraded Ds were retired.[154] The remainder were retired between 1982 and 1983.[155]

The remaining G and H models were used for nuclear standby ("alert") duty as part of the United States' nuclear triad. This triad was the combination of nuclear-armed land-based missiles, submarine-based missiles and manned bombers. The B-1B Lancer, intended to supplant the B-52, replaced only the older models and the supersonic FB-111.[156] In 1991, B-52s ceased continuous 24-hour SAC alert duty.[157]

After the fall of the Soviet Union, the B-52Gs were destroyed per the terms of the Strategic Arms Reduction Treaty (START). The AMARC was tasked with eliminating 365 B-52 bombers, completion of this task was to be verified by Russia via satellite and first-person inspection at the AMARC facility. To place the aircraft permanently beyond restoration, the B-52s were cut up into pieces with a 13,000 lb guillotine.[158] The dismembered aircraft were then left in place so their destruction could be confirmed by Russian reconnaissance satellites.

Gulf War and later

B-52 strikes were an important part of Operation Desert Storm. With about 1,620 sorties flown, B-52s delivered 40% of the weapons dropped by coalition forces while suffering only one non-combat aircraft loss, with several receiving minor damage from enemy action.[1]

Starting on 16 January 1991, a flight of B-52Gs flew from Barksdale AFB, Louisiana, refueled in the air en route, struck targets in Iraq, and returned home – a journey of 35 hours and 14,000 miles round trip. It set a record for longest-distance combat mission.[160][161] B-52Gs operating from bases at Jeddah, Saudi Arabia; RAF Fairford in the United Kingdom; Moron AB, Spain; and the island of Diego Garcia flew bombing missions over Iraq, initially at low altitude. After the first three nights, the B-52s moved to high-altitude missions instead, which reduced their effectiveness and psychological impact compared to the low altitude role initially played.[162]

The conventional strikes were carried out by three bombers, which dropped up to 153 750-pound bombs over an area of 1.5 by 1 miles (2.4 by 1.6 km). The bombings demoralized the defending Iraqi troops, many of whom surrendered in the wake of the strikes.[163] In 1999, the science and technology magazine Popular Mechanics described the B-52's role in the conflict: "The Buff's value was made clear during the Gulf War and Desert Fox. The B-52 turned out the lights in Baghdad"[164]

From 2 to 3 September 1996, two B-52H struck Baghdad power stations and communications facilities with 13 AGM-86C conventional air-launched cruise missiles (CALCM) as part of Operation Desert Strike, a 34-hour, 16,000-mile round trip mission from Andersen AFB, Guam – the longest distance ever flown for a combat mission.[165]

During the conflict several claims of Iraqi air-to-air successes were made, including an Iraqi pilot, Khudai Hijab, who allegedly fired a Vympel R-27R missile from his MIG-29 and damaged a B-52G on the opening night of the Gulf War.[166] However, the United States Air Force disputes this claim, stating the bomber was actually hit by friendly fire, an AGM-88 High-speed, Anti-Radiation Missile (HARM) that homed on the fire-control radar of the B-52's tail gun; the jet was subsequently renamed "In HARM's Way".[167] Shortly following this incident, General George Lee Butler announced that the gunner position on B-52 crews was to be eliminated, and the gun turrets permanently deactivated, commencing on 1 October 1991.[168]

Since the mid-1990s, the B-52H has been the only variant remaining in military service;[N 6] it is currently stationed at:

The B-52 contributed to Operation Enduring Freedom in 2001 (Afghanistan/Southwest Asia), providing the ability to loiter high above the battlefield and provide Close Air Support (CAS) through the use of precision guided munitions, a mission which previously would have been restricted to fighter and ground attack aircraft.[170] B-52s also played a role in Operation Iraqi Freedom, which commenced on 20 March 2003 (Iraq/Southwest Asia). On the night of 21 March 2003, B-52Hs launched at least one hundred AGM-86C CALCMs at targets within Iraq.[171]

In August 2007, a B-52H ferrying AGM-129 ACM cruise missiles from Minot Air Force Base to Barksdale Air Force Base for dismantling was mistakenly loaded with six missiles from which the nuclear warhead was not removed. The weapons did not leave USAF custody and were secured at Barksdale.[172][173]

As of April 2011, 94 of the original 744 B-52 aircraft were still operational within the U.S. Air Force (85 Air Force and 9 Air Force Reserve. Four of 18 B-52Hs from Barksdale AFB that are currently being retired are in the "boneyard" of 309th AMARG at Davis-Monthan AFB as of 8 September 2008.[174]

Continued service

B-52s are periodically refurbished at USAF maintenance depots such as Tinker Air Force Base, Oklahoma.[175] Even while the Air Force works on its Next-Generation Bomber and 2037 Bomber projects, it intends to keep the B-52H in service until 2045, more than 90 years after the B-52 entered service and an unprecedented length of service for a military aircraft.[1][176][177] [N 7]

The USAF continues to rely on the B-52 because it remains an effective and economical heavy bomber, particularly in the type of missions that have been conducted since the end of the Cold War against nations that have limited air defense capabilities. The B-52 has the capacity to "loiter" for extended periods over (or even well outside) the battlefield, and deliver precision standoff and direct fire munitions. It has been a valuable asset in supporting ground operations during conflicts such as Operation Iraqi Freedom.[179] The B-52 had the highest mission capable rate of the three types of heavy bombers operated by the USAF in 2001. The B-1 averaged a 53.7% ready rate, and the B-2 achieved 30.3%, while the B-52 averaged 80.5% during the 2000-2001 period.[159]

Additionally, a proposed variant of the B-52H was the EB-52. This version would have modified and augmented 16 B-52H airframes with additional electronic jamming capabilities.[180][181] This new aircraft would have given the USAF an airborne jamming capability that it has lacked since retiring the EF-111 Raven. The program was canceled in 2005 following the removal of funds for the stand-off jammer. The program was revived in 2007 but funding was again cut in early 2009.[182]

Variants

Production numbers[2]
Variant Produced Entered Service
XB-52 2 (1 redesignated YB-52) prototypes
B-52A 3
NB-52A 1 Modified B-52A
B-52B 50 29 June 1955
RB-52B 27 Modified B-52Bs
NB-52B 1 Modified B-52B
B-52C 35 June 1956
B-52D 170 December 1956
B-52E 100 December 1957
B-52F 89 June 1958
B-52G 193 13 February 1959
B-52H 102 9 May 1961
Grand total 744 production

The B-52 went through several design changes and variants over its 10 years of production.[104]

XB-52
Two prototype aircraft with limited operational equipment, used for aerodynamic and handling tests
YB-52
One XB-52 modified with some operational equipment and re-designated
B-52A
Only three of the first production version, the B-52A, were built, all loaned to Boeing for flight testing.[47] The first production B-52A differed from prototypes in having a redesigned forward fuselage. The bubble canopy and tandem seating was replaced by a side-by-side arrangement and a 21 inches (53 cm) nose extension accommodated more avionics and a new sixth crew member.[N 8] In the rear fuselage, a tail turret with four 0.50 inch (12.7 mm) machine guns with a fire-control system, and a water injection system to augment engine power with a 360 US gallon (1,363 L) water tank were added. The aircraft also carried a 1,000 US gallon (3,785 L) external fuel tank under each wing. The tanks damped wing flutter and also kept wingtips close to the ground for ease of maintenance.[183]
NB-52A
The last B-52A (serial 52-0003) was modified and redesignated NB-52A in 1959 to carry the North American X-15. A pylon was fitted under the right wing between the fuselage and the inboard engines with a 6 feet x 8 feet (1.8 m x 2.4 m) section removed from the right wing flap to fit the X-15 tail. Liquid oxygen and hydrogen peroxide tanks were installed in the bomb bays to fuel the X-15 before launch. Its first flight with the X-15 was on 19 March 1959, with the first launch on 8 June 1959. The NB-52A, named "The High and Mighty One" carried the X-15 on 93 of the program's 199 flights.[184]
B-52B/RB-52B

The B-52B was the first version to enter service with the USAF on 29 June 1955 with the 93rd Bombardment Wing at Castle AFB in California.[183] This version included minor changes to engines and avionics, enabling an extra 12,000 pounds of thrust to be produced using water injection.[185] Temporary grounding of the aircraft after a crash in February 1956 and again the following July caused training delays, and at mid-year there were still no combat-ready B-52 crews.[110]

Of the 50 B-52Bs built, 27 were capable of carrying a reconnaissance pod as RB-52Bs (the crew was increased to eight in these aircraft).[47] The 300 pound (136 kg) pod contained radio receivers, a combination of K-36, K-38, and T-11 cameras, and two operators on downward-firing ejection seats. The pod required only four hours to install.[110]
Seven B-52Bs were brought to B-52C standard under Project Sunflower.[186]
NB-52B
The NB-52B was B-52B number 52-0008 converted to an X-15 launch platform. It subsequently flew as the "Balls 8" in support of NASA research until 17 December 2004, making it the oldest flying B-52B. It was replaced by a modified B-52H.[187]
B-52C
The B-52C's fuel capacity (and range) was increased to 41,700 US gallons by adding larger 3000 US gallon underwing fuel tanks. The gross weight was increased by 30,000 pounds (13,605 kg) to 450,000 pounds. A new fire control system, the MD-9, was introduced on this model.[141] The belly of the aircraft was painted with antiflash white paint, which was intended to reflect thermal radiation away after a nuclear detonation.[188]
RB-52C
The RB-52C was the designation initially given to B-52Cs fitted for reconnaissance duties in a similar manner to RB-52Bs. As all 35 B-52Cs could be fitted with the reconnaissance pod, the RB-52C designation was little used and was quickly abandoned.[188]
B-52D
The B-52D was a dedicated long-range bomber without a reconnaissance option. The Big Belly modifications allowed the B-52D to carry heavy loads of conventional bombs for carpet bombing over Vietnam,[185] while the Rivet Rambler modification added the Phase V ECM systems, which was better than the systems used on most later B-52s. Because of these upgrades and its long range capabilities, the D model was used more extensively in Vietnam than any other model.[141] Aircraft assigned to Vietnam were painted in a camouflage colour scheme with black bellies to defeat searchlights.[60]
B-52E
The B-52E received an updated avionics and bombing navigational system, which was eventually debugged and included on following models.[185]
One E aircraft (AF Serial No. 56-0631) was modified as a testbed for various B-52 systems. Redesignated NB-52E, the aircraft was fitted with canards and a Load Alleviation and Mode Stabilization system (LAMS) which reduced airframe fatigue from wind gusts during low level flight. In one test, the aircraft flew 10 knots (11.5 mph, 18.5 km/h) faster than the never exceed speed without damage because the canards eliminated 30% of vertical and 50% of horizontal vibrations caused by wind gusts.[189]
B-52F
This aircraft was given J57-P-43W engines with a larger capacity water injection system to provide greater thrust than previous models.[185] This model had problems with fuel leaks which were eventually solved by several service modifications: Blue Band, Hard Shell, and QuickClip.[79]
B-52G
The B-52G was proposed to extend the B-52's service life during delays in the B-58 Hustler program. At first, a radical redesign was envisioned with a completely new wing and Pratt & Whitney J75 engines. This was rejected to avoid slowdowns in production, although a large number of changes were implemented.[185] The most significant of these was the brand-new "wet" wing with integral fuel tanks which considerably increased the fuel capacity; gross aircraft weight went up by 38,000 pounds (17,235 kg) compared with prior variants. In addition, a pair of 700 US gallon (2,650 L) external fuel tanks was fitted under the wings.[190] In this model, the traditional ailerons were eliminated. Instead, spoilers provided roll control. The tail fin was shortened by 8 feet (2.4 m), water injection system capacity was increased to 1,200 US gallons (4,540 L), and the nose radome was enlarged.[191] The tail gunner manning the 4 .50 caliber machine guns (quad mounted in a remote controlled tail turret on the G-model, the guns were later removed from all operational aircraft) was relocated to the main cockpit and was provided with an ejection seat.[190] Dubbed the "Battle Station" concept, the offensive crew (pilot and copilot on the upper deck and the two bombing navigation system operators on the lower deck) faced forward, while the defensive crew (tail gunner and ECM operator) on the upper deck faced aft.[141] The B-52G entered service on 13 February 1959 (a day earlier, the last B-36 was retired, making SAC an all-jet bomber force). 193 B-52Gs were produced, making this the most produced B-52 variant. Nearly all B-52Gs were destroyed in compliance with the Strategic Arms Reduction Treaty of 1992; a few examples remain in museums and as static displays.[192]
B-52H
The B-52H had the same crew and structural changes as the B-52G. The most significant upgrade was the switch to TF33-P-3 turbofan engines which, despite the initial reliability problems (corrected by 1964 under the Hot Fan program), offered considerably better performance and fuel economy than the J57 turbojets.[141][191] The ECM and avionics were updated, a new fire control system was fitted, and the rear defensive armament was changed from machine guns to a 20 mm M61 Vulcan cannon (later removed in 1991–94).[190] A provision was made for four GAM-87 Skybolt ballistic missiles. The aircraft's first flight occurred on 10 July 1960, and it entered service on 9 May 1961. This is the only variant still operational. A total of 744 B-52s were built. The last production aircraft, B-52H AF Serial No. 61-0040, left the factory on 26 October 1962.[193]
XR-16A

Allocated to the reconnaissance variant of the B-52B but not used and the aircraft were designated RB-52B instead.[194]

Operators

USA
See List of B-52 Units of the United States Air Force for a detailed summary

Notable accidents

Survivors

There are many B-52s still in use and others on static display at USAF bases and museums around the world.

Specifications (B-52H)

Data from Knaack,[215] USAF fact sheet,[1] Quest for Performance[216]

General characteristics

Performance

Armament

Avionics

Notable appearances in media

The B-52 has been featured in a number of major films, most notably: Bombers B-52 (1957),[218] A Gathering of Eagles (1963),[219] Dr. Strangelove or: How I Learned to Stop Worrying and Love the Bomb (1964),[220] and By Dawn's Early Light (1990).[221] It has also been featured in numerous novels, such as most of the early Patrick McLanahan novels by Dale Brown, which feature one or more heavily modified B-52 bombers, nicknamed the "EB-52 Megafortress".[222] A 1960s hairstyle, the beehive, is also called a B-52 for its resemblance to the aircraft's distinct nose.[223] The popular band The B-52's was subsequently named after this hairstyle.[223]

See also

United States Air Force portal
Aviation portal

Related development
Aircraft of comparable role, configuration and era

Related lists

References

Notes
  1. ^ Other aircraft with similarly long service include the English Electric Canberra, Tupolev Tu-95, Lockheed C-130 Hercules, Boeing KC-135 Stratotanker, Lockheed P-3 Orion,and Lockheed U-2.[5][6][7][8]
  2. ^ Ground tests and checkouts carried out on 29 November 1951 resulted in the XB-52's failure of the pneumatic system during a full-pressure test with the resulting explosion severely damaging the wing trailing edge. The prototype was returned to the production hall for repairs.
  3. ^ Quote:"Designing the B-29 had required 153,000 engineering hours; the B-52, 3,000,000."[51]
  4. ^ "Fellow" is substituted for "Fucker" in bowlderized/sanitized versions of the acronym.[128]
  5. ^ The following military aircraft are the only aircraft larger than the B-52 in some manner (parameter listed in parenthesis may not be the only figure that exceeds the corresponding parameter of the B-52) and possess an air-to-air capability; none has a combat kill: B-36 Peacemaker (wingspan), Convair YB-60 (wingspan), Ilyushin Il-76D (payload).
  6. ^ A B-52B, Balls 8, was in use by NASA, a civilian US government entity, until 17 December 2004.
  7. ^ At least one B-52 aviator's father and grandfather also flew the bomber.[178]
  8. ^ The electronic warfare officer sat behind the pilot facing to the rear.[183]
Citations
  1. ^ a b c d e f "Fact Sheet: B-52 Stratofortress." National Museum of the United States Air Force. Retrieved: 2 October 2007.
  2. ^ a b Knaack 1988, p. 291.
  3. ^ a b Knaack 1988, p. 241.
  4. ^ "Fact Sheet: B-52 Superfortress." Minot Air Force Base, United States Air Force, October 2005. Retrieved: 12 January 2009.
  5. ^ "Возвращение летающего медведя (Return of the Flying Bear) in Russian." Lenta. 3 November 2009.
  6. ^ "RAAF C-130 Hercules – 50 Years of Outstanding Service." defenseworld.net, 3 November 2008.
  7. ^ Lombardi, Michael. "The first KC-135 tanker aircraft rolled out 50 years ago this month." Boeing, July 2006.
  8. ^ Karl, Jonathan. "So high, so fast." ABC News, 17 August 2007. Retrieved: 3 November 2009.
  9. ^ a b c Greenwood 1995, p. 201.
  10. ^ Knaack 1988, pp. 206–207.
  11. ^ a b Knaack 1988, p. 207.
  12. ^ Knaack 1988, pp. 207–208.
  13. ^ Tagg 2004, p. 19.
  14. ^ a b Tagg 2004, p. 21.
  15. ^ Knaack 1988, p. 208.
  16. ^ Tagg 2004, p. 22.
  17. ^ a b Tagg 2004, p. 23.
  18. ^ Knaack 1988, p. 209.
  19. ^ Tagg 2004, p. 30.
  20. ^ a b Tagg 2004, p. 34.
  21. ^ Knaack 1988, p. 210.
  22. ^ Knaack 1988, pp. 210–211.
  23. ^ Knaack 1988, p. 212.
  24. ^ Tagg 2004, pp. 35–36.
  25. ^ Tagg 2004, pp. 36–39.
  26. ^ Consumer Price Index (estimate) 1800–2008. Federal Reserve Bank of Minneapolis. Retrieved December 7, 2010.
  27. ^ Tagg 2004 pp. 40–44.
  28. ^ Simonsen, Erik. "Dueling bombers: Boeing's YB-52 beat out Convair's YB-60—and continues to serve." Boeing Frontiers, June 2006. Retrieved: 17 July 2010.
  29. ^ Knaack 1988, p. 213.
  30. ^ Tagg 2004, pp. 45–47.
  31. ^ Tagg 2004, pp. 44–45.
  32. ^ Knaack 1988, pp. 214–215.
  33. ^ Baugher, Joe. "Origin of the B-52." USAF Bombers: American Military Aircraft, 30 June 2000. Retrieved: 9 August 2011.
  34. ^ Mandeles, Dr. Mark D. The Development of the B-52 and Jet Propulsion; A Case Study in Organizational Innovation. Maxwell AFB, Alabama: Air University Press, March 1988. ISBN 978-9998296275.
  35. ^ a b "B-52 Design: Dayton Hotel Birthplace of Jet-powered Bomber." Boeing. 11 April 2002. Retrieved: 3 August 2011.
  36. ^ Tagg 2004, pp. 48–50.
  37. ^ Tagg 2004, pp. 58–59.
  38. ^ Knaack 1998, pp. 215–216.
  39. ^ Tagg 2004, p. 57.
  40. ^ Knaack 1988, pp. 217–218.
  41. ^ Tagg 2004, p. 60.
  42. ^ Knaack 1988, p. 218.
  43. ^ Knaack 1988, pp. 217–219.
  44. ^ Knaack 1988, p. 219.
  45. ^ Knaack 1988, p. 221.
  46. ^ Cooke 1956, pp. 24–28.
  47. ^ a b c d Donald 1997, pp. 161–162.
  48. ^ "The Boeing Logbook: 1952–1956 15 April 1952." Boeing. Retrieved: 13 August 2009.
  49. ^ Knaack 1988, p. 222.
  50. ^ Tagg 2004, p. 82.
  51. ^ Knaack 1988, p. 227.
  52. ^ Knaack 1988, p. 229.
  53. ^ Tagg 2004, p. 85.
  54. ^ a b c Knaack 1988, p. 230.
  55. ^ Knaack 1988, pp. 229–230.
  56. ^ Tagg 2004, p. 5.
  57. ^ Gunston Flight 1957, p. 776.
  58. ^ Lake International Air Power Review Spring 2003, pp. 117–121.
  59. ^ Bowers 1989, p. 379.
  60. ^ a b Lake International Air Power Review Summer 2003, pp. 100–101.
  61. ^ Lake International Air Power Review Summer 2003, p. 102.
  62. ^ a b Lake International Air Power Review Summer 2003, p. 103.
  63. ^ Gunston Flight 1957, p. 778.
  64. ^ a b Lake International Air Power Review, Summer 2003, p. 101.
  65. ^ Eden 2004, p. 71.
  66. ^ Knaack 1988, p. 247.
  67. ^ Knaack 1988, p. 258.
  68. ^ Knaack 1988, p. 262.
  69. ^ Knaack 1988, p. 269.
  70. ^ Knaack 1988, p. 280.
  71. ^ a b Knaack 1988, p. 289.
  72. ^ a b Tagg 2004, p. 87.
  73. ^ a b Spick 1986, pp. 6–8.
  74. ^ a b Knaack 1988, pp. 252–254.
  75. ^ Knaack 1988, pp. 254–255.
  76. ^ Tinker, Frank A. "Who Will Bell the Invisible CAT?" Popular Mechanics, August 1969, pp. 94–97.
  77. ^ a b Knaack 1988, p. 259.
  78. ^ a b Knaack 1988, pp. 276–277.
  79. ^ a b Knaack 1988, pp. 266–267.
  80. ^ Jenkins 1999, p. 39.
  81. ^ Trimble, Stephen. "Boeing pushing B-52H re-engining." Flight International, 25 November 2003.
  82. ^ Trimble, Stephen. "Air Force Widens Review Of B-52 Re-Engining Options." Aviation Week, 7 July 2003.
  83. ^ "Defense Science Board Task Force on B-52H Re-Engining." Office of the Under Secretary of Defense. Retrieved: 10 July 2010.
  84. ^ a b c Zamorano, Marti, "B-52 synthetic fuel testing: Center commander pilots first Air Force B-52 flight using solely synthetic fuel blend in all eight engines." Aerotech News and Review, 22 December 2006.
  85. ^ a b Hernandez, Jason, "SECAF certifies synthetic fuel blends for B-52H." Aerotech News and Review, 10 August 2007.
  86. ^ a b Knaack 1988, pp. 279–280.
  87. ^ Willis Air Enthusiast November/December 2005, pp. 41–43.
  88. ^ Condor, 1994, p. 38.
  89. ^ a b "Computers in Spaceflight: The NASA Experience ." NASA. Retrieved: 2 October 2011.
  90. ^ Hopper, David. "Upgraded B-52 Still on Cutting Edge." WSTIAC, 31 April 2008. Retrieved: 17 July 2010.
  91. ^ Neuenswander, David. "Joint Laser Interoperability, Tomorrow's Answer to Precision Engagement". Air & Space Power Journal, 28 June 2001.
  92. ^ Knaack 1988, pp. 277–278.
  93. ^ Tagg 2004, p. 89.
  94. ^ Polmar 2005, p. 529.
  95. ^ Willis Air Enthusiast November/December 2005, pp. 44–45.
  96. ^ Dorr and Rogers 1996, pp. 65–66.
  97. ^ Polmar 2005, p. 532.
  98. ^ Lake International Air Power Review Summer 2003, pp. 108–109.
  99. ^ Dorr and Rogers 1996, pp. 78–79.
  100. ^ Lake Air International May 2001, p. 290.
  101. ^ Lake International Air Power Review Summer 2003, p. 114.
  102. ^ Lake Air International May 2001, pp. 290–291.
  103. ^ Dorr and Rogers 1996, pp. 81–82.
  104. ^ a b Knaack 1998.
  105. ^ Knaack 1988, pp. 234–237.
  106. ^ Boyne 2001, p. 216.
  107. ^ a b Knaack 1988, p. 237.
  108. ^ Boyne 2001, p. 220.
  109. ^ Knaack 1988, p. 238.
  110. ^ a b c Lake International Air Power Review Spring 2003, p. 119.
  111. ^ Knaack 1988, p. 240.
  112. ^ a b Knaack 1988, p. 243.
  113. ^ Knaack 1988, p. 244.
  114. ^ Condor 1994, p. 42.
  115. ^ Knaack 1988, p. 282.
  116. ^ Miller 1985, pp. 69–70.
  117. ^ Greenwood 1995, p. 289.
  118. ^ "NASA SP-4006, Astronautics and Aeronautics, 1965: Chronology on Science, Technology, and Policy." National Aeronautics and Space Administration via NASA Historical Staff, Office of Policy Analysis. Retrieved: 5 June 2010.
  119. ^ Tillman 2007, p. 100.
  120. ^ Rosenberg, David A. "The Origins of Overkill: Nuclear Weapons and American Strategy, 1945–1960." International Security, Spring 1983.
  121. ^ Kristensen, Hans M. "The Airborne Alert Program Over Greenland." The Nuclear Information Project. Retrieved: 2 October 2011.
  122. ^ Parrington, Alan J. "Mutually Assured Destruction Revisited, Strategic Doctrine in Question." Airpower Journal, Winter 1997.
  123. ^ Jenkins 1999, p. 21.
  124. ^ Spick 1986, pp. 4–5.
  125. ^ "May 1960 – The U-2 Incident. – Soviet and American Statements." Keesing's Record of World Events, Volume 6, 1960.
  126. ^ Schwartz 1998, p. 119.
  127. ^ "BUF." Wordorigins.org. Retrieved: 3 November 2009.
  128. ^ Flynn 1997, p. 138.
  129. ^ Anderson, William. "Guam Jets Bomb S. Viet." Chicago Tribune, 18 June 1965.
  130. ^ Hobson 2001, pp. 22–23.
  131. ^ Schlight 1988, p. 52.
  132. ^ Lake 2004, p. 30.
  133. ^ a b Dick and Patterson 2006, p. 161.
  134. ^ Knaack 1988, p. 256.
  135. ^ "Reds Down First B-52 of War." Los Angeles Times, 22 November 1972.
  136. ^ McCarthy and Allison 2009, p. 173.
  137. ^ Dick and Patterson 2006, p. 187.
  138. ^ Budiansky 2004, p. 394.
  139. ^ Condor 1994, p. 38.
  140. ^ Lake 2004, p. 32.
  141. ^ a b c d e Condor 1994, p. 37.
  142. ^ Robt. F. Dorr and Lindsay Peacock. Boeing's Cold War Warrior: B-52 Stratofortress. Published 1995.
  143. ^ Pribbenow, p. 327.
  144. ^ http://mysite.verizon.net/anneled/usloss.html
  145. ^ a b c McCarthy 2009, p. 139.
  146. ^ a b McCarthy 2009, p. 19.
  147. ^ Futrell 1976.
  148. ^ a b McCarthy 2009, p. 141.
  149. ^ Toperczer, Dr. Istvan. Air War Over North Viet Nam; The Vietnamese People's Air Force 1949-1977. Carrollton, Texas: Squadron/Signal Publications, 1998. ISBN 978-0897473903.
  150. ^ "Cambodia is a key to Vietnam peace." Rock Hill Herald, 24 August 1973.
  151. ^ Creech, Gray. "End of an Era: NASA's Famous B-52B Retires." NASA, 14 December 2004. Retrieved: 3 November 2009.
  152. ^ "Online Exhibit of Aircraft: 1955 B-52B Stratofortress." Wings Over the Rockies Air & Space Museum. Retrieved: 3 November 2009.
  153. ^ Holder, William G. "The Ever-changing Fleet." Air University Review , July–August 1978. Retrieved: 22 July 2010.
  154. ^ Willis Air Enthusiast November/December 2005, p. 39.
  155. ^ Willis Air Enthusiast November/December 2005, p. 41.
  156. ^ Anderton, David. "B-1B: Out of the Shadows." Popular Mechanics, Volume 162, Issue 11, November 1985, pp. 98–99, 174. Retrieved: 13 November 2009.
  157. ^ Bailey, Carl E. "Fact Sheet: 325 Weapons Squadron (ACC)." National Museum of the United States Air Force.' Retrieved: 5 June 2010.
  158. ^ Willis Air Enthusiast November/December 2005, pp. 51–52.
  159. ^ a b Arana-Barradas, Louis A. "'BUFF' and Tough: the B-52 bomber has been a valuable and effective member of the Air Force since 1955." Airman, June 2001. Retrieved: 16 October 2007.
  160. ^ Willis Air Enthusiast November/December 2005, p. 50.
  161. ^ "Factsheets: 2nd Bomb Wing History". Barksdale Air Force Base, United States Air Force. Retrieved 19 September 2011.
  162. ^ Cordesman and Wagner 1996, p. 451.
  163. ^ Dick and Patterson 2006, p. 225.
  164. ^ Garvey, William. "New Life for Buff: Older than its pilots, the B-52 gets ready to fly for 100 years." Popular Mechanics, March 1999.
  165. ^ Dick and Patterson 2006, p. 222.
  166. ^ Lake 2004, p. 48.
  167. ^ Lake 2004, p. 47–48.
  168. ^ Condor 1994, p. 44.
  169. ^ "B-52H." NASA. Retrieved: 3 November 2009.
  170. ^ Willis Air Enthusiast November/December 2005, pp. 56–57.
  171. ^ Dick and Patterson 2006, p. 242.
  172. ^ Warrick, Joby and Walter Pincus. "Missteps in the Bunker". Washington Post, 23 September 2007. Retrieved: 3 November 2009.
  173. ^ Hoffman, Michael. ""Wing decertified, COs sacked for nuke mistake". Air Force Times, 21 October 2007. Retrieved: 3 November 2009.
  174. ^ Hopper, David. "B-52 Stratofortress". Air Force, 15 April 2011. Retrieved: 15 April 2011.
  175. ^ "Air Force Depot Maintenance: Information on the Cost-Effectiveness of B-1 and B-52 Support Options (Briefing Report, 09/12/97, GAO/NSIAD-97-210BR)." fas.org. Retrieved: 3 November 2009.
  176. ^ "USAF Fact Sheet B-52 Stratofortress". United States Air Force. Retrieved 13 November 2011.
  177. ^ Hebert, Adam J. "Strategic Force." Air Force Magazine for the Air Force Association, Volume 90, Issue 2, February 2007, pp. 38–43. Retrieved: 13 November 2009.
  178. ^ Ogden, Eloise (2011-09-19). "Third generation B-52 flight officer". Minot Daily News. http://www.minotdailynews.com/page/content.detail/id/558723/Third-generation-B-52-flight-officer.html?nav=5013. Retrieved October 2, 2011. 
  179. ^ Cortes, Lorenzo. "B-52 Crew Credits Arsenal, Loiter Capability During Operation Iraqi Freedom." Defense Daily, 9 May 2003. Retrieved: 13 November 2009.
  180. ^ Tagg 2004, p. 91.
  181. ^ "USAF Radar Jamming Technology." Proxify.org. Retrieved: 9 April 2010.
  182. ^ Trimble, Stephen. "US Air Force cancels SAM-jamming EB-52 for second time." Flight International, 3 March 2009.
  183. ^ a b c Dorr 1990, p. 26.
  184. ^ Willis Air Enthusiast, September/October 2005, p. 70.
  185. ^ a b c d e Boyne, Walter J. "The B-52 Story". Air University Review. November–December 1982.
  186. ^ Willis Air Enthusiast September/October 2005, p. 59.
  187. ^ "NASA 'Balls 8': B-52B 'Mothership' Launch Aircraft." NASA. Retrieved: 2 October 2007.
  188. ^ a b Lake International Air Power Review Spring 2003, p. 121.
  189. ^ Hewitt Phillips, W. "Chapter 13: Gust Alleviation." Journey in Aeronautical Research: A Career at NASA Langley Research Center, Monographs in Aerospace History, Number 12, November 1998, p. 132. Washington, D.C: NASA Historical Office.
  190. ^ a b c Tagg 2004, p. 86.
  191. ^ a b Boyne 2001, p. 221.
  192. ^ "A roaring farewell at Wurtsmith air base." Chicago Tribune, 4 December 1992.
  193. ^ Dorr 1990, p. 27.
  194. ^ Andrade 1979, p. 55.
  195. ^ "Crash Site of a B-52 Bomber, East of Trans-Canada Highway near Morrill Siding." The New Brunswick Military Heritage Project: Victoria County. Retrieved: 19 December 2010.
  196. ^ "Report on the accident to Boeing 777-236ER, G-YMMM, at London Heathrow Airport on 17 January 2008", p. 123 . AAIB, 9 February 2010. Retrieved: 9 February 2010.
  197. ^ Schneider, Barry. "Big Bangs from Little Bombs." Bulletin of Atomic Scientists, May 1975, p. 28.
  198. ^ Oskins and Maggelet 2007, p. 174.
  199. ^ "Joint Nuclear Accident Co-ordinating Center: Record of Events." United States Department of Defense, 14 April 1961. Retrieved: 15 June 2010.
  200. ^ "B-52C 53-0406 Elephant Mountain 1963." mewreckchasers.com. Retrieved: 16 September 2010.
  201. ^ Nemitz, Bill. "Crash site tells of Cold War tragedy." Press Herald Maine Today, 30 August 2006.
  202. ^ "Narrative Summaries of Accidents Involving U.S. Nuclear Weapons." United States Department of Defence. Retrieved: 7 February 2010.
  203. ^ Maier 2002, p. 36.
  204. ^ a b Knaack 1988, p. 279.
  205. ^ "Spain, U.S. Agree to Radioactivity Cleanup 40 Years After Atomic Accident." Fox News, 8 October 2006. Retrieved: 23 September 2007.
  206. ^ "Butterknife V Thule Route." nukestrat.com. Retrieved: 13 November 2009.
  207. ^ Lake and Styling 2004, p. 19.
  208. ^ Christensen, Svend Aage. "The Marshal's Baton." Danish Institute for International Studies, DIIS Report 2009:18. Retrieved: 9 March 2010.
  209. ^ Chancellor, John. "Orlando Plane Crash NBC News broadcast." Vanderbilt Television News Archive. Retrieved: 3 November 2009.
  210. ^ Yozwiak, Steve."Monument Valley: Return to Hunts Mesa." The Republic. 16 October 2009.
  211. ^ "B-52 Crash Kills Chelan County Man." Seattle Times, 5 February 1991. Retrieved: 20 December 2001.
  212. ^ http://articles.philly.com/1991-08-18/news/25805028_1_three-crew-members-b-52-plane
  213. ^ Schaefer, David. "Pilot In Fatal B-52 Crash May Have Violated Rules: Dicks Cites Signs Of 'Acrobatic' Flying." Seattle Times, 28 June 1994.
  214. ^ "U.S. B-52 bomber with 6 crew members crashes off Guam." CBC News, 21 July 2008.
  215. ^ Knaack 1988, pp. 292–294.
  216. ^ Loftin, L.K. Jr. "NASA SP-468, Quest for Performance: The Evolution of Modern Aircraft". NASA, 1985. Retrieved: 22 April 2006.
  217. ^ "Lockheed Martin’s Sniper ATP Continues Successful B-52 Integration Test Program." Lockheed Martin. Retrieved: 7 February 2010.
  218. ^ "Bombers B-52 (1957)." Turner Classic Movies, 2010. Retrieved: 30 April 2010.
  219. ^ "Sick SAC." Time, 26 July 1963. Retrieved: 15 February 2010.
  220. ^ Southern, Terry. "Checkup with Dr Strangelove." filmmakermagazine.com,, 2009. Retrieved: 11 January 2010.
  221. ^ Tucker. Ken. " 'By Dawn's Early , Ken. Light'." Entertainment Weekly, Issue #17, 8 June 1990. Retrieved: 11 January 2010.
  222. ^ May, Scott A. "Megafortress computer game evaluation." COMPUTE! (Atari Magazines), Issue 139, April 1992, p. 104.
  223. ^ a b "The B-52's." MTV. Retrieved: 18 July 2010.
Bibliography
  • Andrade, John. U.S. Military Aircraft Designations and Serials since 1909. Hinckley, UK: Midland Counties Publications, 1979. ISBN 0-904597-22-9.
  • Bowers, Peter M. "Boeing B-52A/H Stratofortress." Aircraft in Profile, Volume 13, pp. 241–265. Windsor, Berkshire, UK: Profile Publications Ltd., 1973. ISBN 0-85383-022-3.
  • Bowers, Peter M. Boeing Aircraft since 1916. London: Putnam, Third edition, 1989. ISBN 0-85177-804-6.
  • Boyne, Walter J. "The Best of Wings Magazine." Aircraft in Profile, Volume 13. New York: Brassey's, 2001. ISBN 1-57488-368-2.
  • Budiansky, Stephen. Air Power: The Men, Machines, and Ideas that Revolutionized War, from Kitty Hawk to Iraq. New York: Penguin Books, 2004. ISBN 0-670-03285-9.
  • Condor, Albert E. Air Force Gunners (AFGA): The Men Behind the Guns, The History of Enlisted Aerial Gunnery, 1917–1991. Nashville, Tennessee: Turner Publishing, 1994. ISBN 978-1563111679.
  • Cordesman, Anthony H. and Abraham R. Wagner. The Lessons of Modern War: The Gulf War. Boulder, Colorado: Westview Press, 1996. ISBN 0-81338-601-2.
  • Cooke, David C. How Airplanes are Made. New York: Dodd, Mead & Company, 1956. OCLC 1577826.
  • Davis, Larry. B-52 Stratofortress in action. Carrollton, Texas: Squadron/Signal Publications, 1992. ISBN 0-89747-289-6.
  • Dick, Ron and Dan Patterson. Aviation Century: War & Peace In The Air. Eden Prairie, Ontario: Boston Mills Press, 2006. ISBN 1-55046-430-2.
  • Donald, David. The Encyclopedia of World Aircraft. Etobicoke, Ontario, Canada: Prospero Books, 1997. ISBN 1-85605-375-X.
  • Dorr, Robert F. "Stratofortress... The Big One from Boeing." Air Enthusiast. No. Forty-one, Midsummer 1990, pp. 22–37. Bromley, Kent, UK: Pilot Press. ISSN 0143-5450.
  • Dorr, Robert F. and Brian C. Rogers. "Boeing B-52H: The Ultimate Warrior". World Air Power Journal, Volume 27, Winter 1996, pp. 54–101. London: Aerospace Publishing. ISBN 1-874023-83-2. ISSN 0959-7050.
  • Drendel, Lou. B-52 Stratofortress in action. Carrollton, Texas: Squadron/Signal Publications, 1975. ISBN 0-89747-022-2.
  • Ethell, Jeffrey L. B-52 Stratofortress. London: Arms and Armour Press, 1989. ISBN 0-85368-937-7.
  • Eden, Paul, ed. "Boeing B-52 Stratofortress". Encyclopedia of Modern Military Aircraft. London: Amber Books, 2004. ISBN 1-90468-784-9.
  • Flynn, Kelly J. Proud to Be: My Life, The Air Force, The Controversy. New York: Random House, 1997. ISBN 0-375-50109-6.
  • Futrell, R.F., et al. The United States Air Force in Southeast Asia: Aces and Aerial victories, 1965–1973. Washington, D.C.: Office of Air Force History, 1976. ISBN 0-89875-884-X.
  • Greenwood, John T., ed. Milestones of Aviation. Washington, D.C.: Smithsonian Institute NASM, 1995. ISBN 0-88363-661-1.
  • Gunston, Bill. "Boeing B-52:The Strategic Stratofortress". Flight, Vol. 72, No 2547, 15 November 1957, pp. 771–778.
  • Hobson, Chris. Vietnam Air Losses, USAF, USN, USMC, Fixed-Wing Aircraft Losses in Southeast Asia 1961–1973. North Branch, Minnesota: Specialty Press, 2001. ISBN 1-85780-115-6.
  • Jenkins, Dennis R. B-1 Lancer: The Most Complicated Warplane Ever Developed. New York: McGraw-Hill, 1999. ISBN 0-07-134694-5.
  • Knaack, Marcelle Size. Post-World War II Bombers, 1945–1973. Washington, D.C.: Office of Air Force History, 1988. ISBN 0-16-002260-6.
  • Lake, Jon. "Boeing B-52 Stratofortress: Towards the Octogenarian Bomber". Air International, May 2001, Vol 60 No 5. Stamford, Lincs, UK: Key Publishing. ISSN 0306-5634. pp. 286–293.
  • Lake, Jon. "Boeing B-52 variants: Part 2 B-52D to 'B-52J'". International Air Power Review. Volume Nine, Summer 2003, pp. 100–115. Norwalk, Ct, USA: AIRtime Publishing. ISBN 1-880588-56-0. ISSN 1473-9917.
  • Lake, Jon. "Variant Briefing: Boeing B-52 Stratofortress: Part 1". International Air Power Review. Volume Eight, Spring 2003, pp. 106–121. Norwalk, Connecticut, USA:AIRtime Publishing. ISBN 1-880588-54-4. ISSN 1473-9917.
  • Lake, Jon. B-52 Stratofortress Units in Operation Desert Storm. London: Osprey Publishing, 2004. ISBN 0-85045-026-8.
  • Lake, Jon and Mark Styling. B-52 Stratofortress Units in Combat 1955–73. London: Osprey Publishing, 2004. ISBN 1-84176-607-0.
  • Lloyd, Alwyn T. B-52 Stratofortress in Detail and Scale, Volume 27. Blue Ridge Summit, Pennsylvania: Tab Books Inc., 1988. ISBN 0-8306-8037-3.
  • Maier, Lothar Nick. B*U*F*F: Big Ugly Fat F*****. Bloomington, Indianna: Trafford Publishing, 2002. ISBN 1-55395-049-6.
  • Marshall, L. Michel. The Eleven Days of Christmas: America's Last Vietnam Battle. San Francisco: Encounter Books, 2002. ISBN 1-893554-24-4.
  • McCarthy, Donald J. Jr. MiG Killers: A Chronology of US Air Victories in Vietnam 1965–1973. North Branch, Minnesota: Speciality Press, 2009. ISBN 978-1-58007-136-9.
  • McCarthy, James R. and George B. Allison. Linebacker II: A View from the Rock. Darby, Pennsylvania: DIANE Publishing, 1985. ISBN 978-0-91279-931-5.
  • Mehuron, Tamar A., Assoc. Editor. "2007 USAF Almanac – Equipment." Air Force Magazine: Journal of the Air Force Association, Volume 90, Number 5, May 2007. ISSN 0730-6784.
  • Miller, Jay. Convair B-58 Hustler (Aerograph 4). Midland, UK: Aerofax, 1985. ISBN 0-942548-26-4.
  • Oskins, James C. and Michael H. Maggelet. Broken Arrow - The Declassified History of U.S. Nuclear Weapons Accidents. Raleigh, North Carolina: Lulu.com, 2008. ISBN 978-1435703612.
  • Polmar, Norman. The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet. Annapolis, Maryland: Naval Institute Press, 2005. ISBN 978-1-59114-685-8.
  • Schlight, John. The War in South Vietnam: The Years of the Offensive, 1965–1968 (The United States Air Force in Southeast Asia). Washington, D.C.: Office of Air Force History, United States Air Force, 1988. ISBN 978-0-912799-51-3.
  • Spick, Mike. Modern Fighting Aircraft, B-1B. New York: Prentice Hall, 1986. ISBN 0-13-055237-2.
  • Tagg, Lori S. Development of the B-52: The Wright Field Story. Dayton, Ohio: History Office Aeronautical Systems Center, Air Force Materiel Command, Wright-Patterson Air Force Base, United States Air Force, 2004.
  • Tillman, Barrett. LeMay. Basingstoke, Hampshire, UK: Palgrave Macmillan, 2007. ISBN 1-40-397135-8
  • Willis, David. "Boeing's Timeless Deterrent, Part 1: B-52 Stratofortress – From Conception to Hanoi". Air Enthusiast, No. 119, September/October 2005, pp. 50–73. Stamford, Lincs, UK: Key Publishing. ISSN 0143-5450.
  • Willis, David. "Boeing's Timeless Deterrent, Part 2: B-52 – The Permanent Spear Tip". Air Enthusiast, No. 120, November/December 2005, pp. 38–61. Stamford, Lincs, UK: Key Publishing. ISSN 0143-5450.
  • Winchester, Jim, ed. "Boeing B-52 Stratofortress (SAC)". Military Aircraft of the Cold War (The Aviation Factfile). London: Grange Books plc, 2006. ISBN 1-84013-929-3.

External links

External images
Boeing B-52G Stratofortress Cutaway
Boeing B-52G Stratofortress Cutaway from Flightglobal.com