Martin B-57 Canberra

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B-57 Canberra
B-57E of
556th Reconnaissance Squadron
in 1970.
Role Tactical bomber
Manufacturer Martin
First flight 20 July 1953[1]
Introduction 1954
Retired 1983 (USAF)
1985 (Pakistan)
Status Retired from military service; 3 in use by NASA[2]
Primary users United States Air Force
Pakistan Air Force
Republic of China Air Force
Number built 403
Developed from English Electric Canberra
Variants Martin RB-57D Canberra
Developed into Martin/General Dynamics RB-57F Canberra

The Martin B-57 Canberra is an American-built, twin-engined tactical bomber and reconnaissance aircraft that entered service with the United States Air Force (USAF) in 1953. The B-57 is a license-built version of the British English Electric Canberra, manufactured by the Glenn L. Martin Company. Initial Martin-built models were virtually identical to their British-built twinjet counterparts; Martin later modified the design to incorporate larger quantities of US-sourced components and produced the aircraft in several variants.

The B-57 Canberra holds the distinction of being the first jet bomber in U.S. service to drop bombs during combat.

Indo-Pakistani War of 1971
.

In 1983, the USAF opted to retire the type; the B-57 Canberra's retirement marked the ending of the era of the tactical bomber. The three remaining flightworthy WB-57Fs are technically assigned to the

Ellington Field in Houston, as high-altitude scientific research aircraft but have also been used for testing and electronic communications in the U.S. and Afghanistan.[2][4]

Development

Origins

At the outbreak of the

Warrington, Cheshire, England; during the following month, a team of US test pilots and engineers visited English Electric's Warton factory to perform a series of flight tests and a detailed technical assessment of the aircraft.[1]

On 16 September 1950, the USAF formally issued a request for a jet-powered bomber; the sought aircraft had to possess a top speed of 630 mph (1,010 km/h), ceiling of 40,000 ft (12,000 m), and range of 1,150 mi (1,850 km). Full all-weather capability and a secondary reconnaissance role also had to be included in the design. The American contenders included the

Avro Canada CF-100 and the Canberra, which had not yet officially entered service with the Royal Air Force (RAF). Aviation authors Bill Gunston and Peter Gilchrist commented that "It seems likely that this first batch of trials convinced the Americans that the Canberra was ideal for the job, but in order to satisfy the US Senate a competitive evaluation of all likely contenders had to be arranged".[1]

As part of the USAF's evaluation process, all five aircraft were submitted to a series of fly-offs to determine their performance. On 21 February 1951, a Canberra B.2 (WD932), flown by

Andrews Field, Prince George's County, Maryland; each aircraft was tasked with performing a set sequence of maneuvers within a ten-minute window, directly demonstrating its agility and performance against its rivals. According to Gunston and Gilchrist, the Canberra proved to be significantly superior to any of the competing aircraft, and its selection was beyond doubt by the end of the competition.[1]

Production arrangements

The Canberra was a foreign aircraft, which meant its superiority in terms of performance did not guarantee political support in spite of the urgent need, particularly in light of there being several rival indigenous aircraft designs. There were also doubts about production availability with English Electric being able to mesh with USAF demands, as well as questions over spare parts.[1] In March 1951, many of these questions were answered; with production lines already at full capacity meeting Royal Air Force orders and those emerging from other export customers, English Electric entered into discussions with Glenn L. Martin Company. It was proposed that Martin would receive a license to build the Canberra in the United States. According to Gunston and Gilchrist, the Americanization of the Canberra program proved effective at dismissing much of the political opposition to the project.[1]

The British-built Canberra B.2 that was used as a pattern and prototype for the B-57

On 23 March 1951, the USAF issued a contract to Martin, requesting the manufacturing of an initial quantity of 250 Canberras, which had received the USAF designation B-57A (Martin internally designated the type as the Model 272).[1] On 3 April 1951, English Electric and Martin both signed a formal licensing agreement to cover the Canberra's production.[1]

During August 1951, a second British-built Canberra (WD940) was flown to the US to act as a pattern aircraft for Martin, as well as to perform assorted trials and to support performance validation of airframe changes.[5] On 21 December 1951, one of the British pattern aircraft (WD932) was lost in an accident; although this was subsequently discovered to be caused by incorrect fuel scheduling having led to the tail-heavy aircraft exceeding its design limits during a maneuver, the crash jeopardized the entire program and invigorated the anti-Canberra political opposition.[5] The crash did lead to some design changes in the face of political pressure, but these were not implemented on the first 75 aircraft to be produced.[5]

Due to the great urgency placed on delivering the B-57A Canberra, the initial phase of manufacturing performed by Martin used a minimum-change formula to expedite production; thus the first B-57As to be produced were largely identical to the Canberra B.2.

Wright Air Development Center (WADC) were rejected on program schedule or cost grounds.[5] One noticeable exception was the adoption of more powerful Armstrong Siddeley Sapphire engines capable of producing 7,200 lbf (32 kN) of thrust, which were license-built in the United States as the Wright J65. The Sapphire-based J65 powerplant had been selected in place of the British-built Canberra's Rolls-Royce Avons as the USAF had placed an emphasis on operations within hot climates and intended to fly at a slightly higher maximum gross weight than the RAF's operating practices.[6]

Several other minor differences were also present between early US-built and UK-built Canberras. These changes included the canopy and fuselage windows being slightly revised, the crew being reduced from three to two, the adoption of wingtip fuel tanks, engine nacelles were modified with additional cooling scoops, and the conventional "clamshell" bomb bay doors were replaced with a low-drag rotating door originally designed for the XB-51.[7] As a result of these changes, the bomb bay of the US-built aircraft was slightly smaller than its UK-built counterparts in order to allow the American aircraft to carry more fuel; however, the overall external shape of the Canberra remained unchanged.[5]

In early July 1953, the first US-built production aircraft (52-1418) rolled out; it conducted its maiden flight on 20 July 1953.[5] One month later, this initial production aircraft was accepted by the USAF, by which point a cessation of hostilities had come into effect in Korea. This was one of only eight B-57A Canberras to be manufactured; the remaining 67 aircraft from this first batch, deemed no longer to be required as bombers, were converted on the assembly line to serve as medium-altitude reconnaissance aircraft while retaining all the basic Canberra features, and were accordingly re-designated as the RB-57A Canberra.[5]

Further development

B-57B Canberras of the 345th Bombardment Wing in flight, 1957

In place of the curtailed B-57A, a more refined bomber variant, the B-57B, was developed. Having a more lengthy development time, this model incorporated the structural and system changes that had been recommended by WADC, which resulted in the aircraft being more adaptable than its B-57A predecessor.

gunsight to be equipped. The corresponding glazed bombing nose of the B-57A was deleted along with the starboard crew entrance to the cockpit.[8]

The B-57B introduced several other major changes. In terms of armaments, a total of four hardpoints attached to the outer wing panels were installed on this variant, capable of mounting external bombs and rockets. The B-57B was also furnished with a gun armament for strafing attacks. The first 90 aircraft to be produced were equipped with a total of eight 0.50 cal (12.7 mm) Browning machine guns installed within the wings; on later aircraft these were replaced by an arrangement of four 20 mm M39 cannon.[9] A new rotary bomb door was adopted on the B-57B, which had originally been designed for the XB-51, replacing the hinged doors; this proved to be faster to open/close and reduced buffeting, which in turn improved accuracy and allowed for faster attack speeds. The redesigned bomb bay also enabled faster turnaround times on the ground.[10]

In addition, hydraulically-operated triangular air brakes were installed on the rear fuselage, which worked in addition to the existing 'finger'-type brakes installed in the wings; the new brakes gave the pilots a greater level of controllability, improving the accuracy of low-level bombing runs.[9] The B-57B was equipped with an APW-11 Bombing Air Radar Guidance System for target approach guidance, as well as an APS-54 radar warning receiver.[11] The engines were also furnished with a new cartridge starting system, eliminating the reliance on ground start carts.[11]

The substantial design changes between the B-57A and B-57B models resulted in delays to the overall program, as well as incurring substantial costs on the fixed-price contract. Gunston and Gilchrist stated of the consequences to the program: "This was clearly not the manufacturer's fault, but the money effectively ran out after 177 of the planned 250-aircraft order had been completed".[11] In 1954, in response to the sound performance offered by the B-57B, the USAF elected to place a large second order; this included a further 100 B-57B bombers, 38 B-57C trainers, and 20 RB-57D high-altitude reconnaissance aircraft.[11] In 1955, a final batch of 68 B-57E target tugs was ordered.[11]

In 1969, in response to demands for a capable night interdiction aircraft for combat operations in Southeast Asia, a total of 16 B-57B Canberras were substantially rebuilt during a lengthy upgrade program.[12] These aircraft received an entirely new nose section containing an AN/ANQ-139 forward-looking radar, a low-light television system, and an AN/AAS-26 forward-looking infrared detector. A laser rangefinder/designator was also installed, and the wing pylons modified to accommodate laser-guided Paveway bombs, while all the guns were removed to save weight.[13] During the production run from 1953 to 1957, a total of 403 B-57s were built.

Operational history

Scott AFB
, 1969
Laon-Couvron Air Base
, circa 1957
Bomarc
, for testing of the missile

The B-57A was not considered combat-ready by the USAF and the aircraft were used solely for testing and development. One of the aircraft was given to the

hurricanes.[citation needed] The aircraft was placed into limited production. Particularly contentious were the cockpit arrangement and the lack of guns, the Canberra having been designed as a high-speed, high altitude bomber rather than for close air support. The definitive B-57B, which introduced numerous improvements, made its first flight on 18 June 1954. The aircraft initially suffered from the same engine malfunctions as the RB-57As and several were lost in high-speed low-level operations due to a faulty tailplane actuator which caused the aircraft to dive into the ground. The USAF came to consider the B-57B as being inadequate for the night intruder role and thus Martin put all aircraft through an extensive avionics upgrade in response. Regardless, by the end of 1957, the USAF tactical squadrons were being re-equipped with supersonic North American F-100 Super Sabres. The complete retirement was delayed, however, by the start of the Vietnam War
.

Reconnaissance and electronic warfare B-57s

While the USAF found the B-57A lacking, the photo reconnaissance RB-57A saw some operational use. First flying in October 1953, RB-57As fully equipped the 363rd Tactical Reconnaissance Wing at Shaw Air Force Base by July 1954. The aircraft were also deployed with USAF squadrons in West Germany, France and Japan. However, operational readiness was poor and the aircraft suffered from significant production delays because of engine problems. Wright had subcontracted production of J65 engines to Buick, which resulted in slow deliveries and a tendency for engine oil to enter the bleed air system, filling the cockpit with smoke. The problems were ameliorated when Wright took over engine production in 1954. RB-57As also suffered from a high accident rate caused in part by poor single-engine handling. This resulted in the entire fleet spending much of 1955 on the ground. By 1958, all RB-57A craft were replaced in active service by the Douglas RB-66B and McDonnell RF-101A. Air National Guard (ANG) units extensively used the RB-57A for photographic surveys of the United States until 1971.

A number of modified RB-57As were used by the

Wiesbaden AB, West Germany in Operation "Heart Throb" reconnaissance missions over Europe.[14] Ten aircraft were pulled off Martin's production line and modifications were performed in August 1955 by the Wright Air Development Center and by Martin. All equipment not absolutely essential for the daytime photography role was eliminated. The bomb bay door was removed and the area was skinned over. The seat for the system operator/navigator was removed, and an optical viewfinder was installed in the nose so that the pilot could perform all the reconnaissance duties without the assistance of the navigator. The clear plexiglass nose cone was replaced by an opaque fiberglass cone, but with a small optical glass window cut for the viewfinder. The plane's J65-BW-5s were replaced by higher-thrust J65-W-7s. The aircraft was referred to as RB-57A-1. The weight reduction program shaved 5665 pounds off the weight of the RB-57A, and the ceiling was increased by 5000 feet.[15]

Two RB-57A-1s were used by the

SA-2 Guideline missile, marking the first successful operational engagement of surface-to-air missiles. Two other RB-57As were used by the Federal Aviation Administration to plan high-altitude airways
for the upcoming jet passenger aircraft.

Starting in 1959, Martin began to modify retired RB-57As with

electronic countermeasures (ECM) equipment in the bomb bay. Redesignated EB-57A, these aircraft were deployed with Defense Systems Evaluation Squadrons which played the role of aggressors to train the friendly air defense units in the art of electronic warfare. Subsequent bomber variants were also modified to fulfill this role. Although initially conducted by active duty Air Force units, the EB-57 mission eventually migrated to selected ANG units.[16][17][18]
The ANG's EB-57s were replaced, in the 1980s, by the USAF's more advanced General Dynamics/Grumman EF-111A Raven operated by the active-duty USAF.

Strategic Air Command employed 20 RB-57D aircraft from 1956 until 1964. Little is known about their use. The aircraft were retired due to structural fatigue and the advent of the U-2 and SR-71.[19]

High-altitude atmospheric research WB-57s

Since the early 1970s [20] two WB-57F Canberras (NASA 926 and NASA 928) were flown and maintained by NASA for high altitude atmospheric research.[clarification needed] These same two aircraft have also been deployed alternately to Afghanistan for use as communications platforms that fly high over an area linking various communications devices on the battlefield and to other airborne assets, they were known as the Battlefield Airborne Communications Node system (BACN).[21] In 2011 it was determined that a third aircraft was needed to satisfy mission requirements and an additional WB-57 was removed from the 309th AMARG after over 40 years at Davis-Monthan AFB and returned to flight status in August 2013 as NASA 927.[22]

Vietnam War

Patricia Lynn RB-57E at Da Nang, January 1964
FLIR
/LLLTVradar mounted in the nose of the aircraft.
Det 1 460th Tactical Reconnaissance Wing Tan Son Nhut Air Base South Vietnam with RB-57E 55–4264, early 1968

Patricia Lynn Project

Although intended as a bomber and never before deployed by the USAF to a combat zone, the first B-57s to be deployed to South Vietnam were not operated in an offensive role. The need for additional reconnaissance assets, especially those capable of operating at night, led to the deployment of two RB-57E aircraft on 15 April 1963. The USAF had awarded General Dynamics a contract to modify two B-57Es (55-4243, 55–4245) as all-weather high-altitude strategic reconnaissance aircraft. Under project Patricia Lynn these aircraft provided infrared coverage using their Reconofax VI cameras.[23]

General Dynamics was chosen to modify the B-57E as it had extensive experience modifying Canberras with the RB-57D and RB-57F projects and turning the B-57 into a high-altitude reconnaissance aircraft. The forward nose section of the B-57Es were modified to house a KA-1 36-inch forward oblique camera and a low panoramic KA-56 camera used on the Lockheed U-2. Mounted inside the specially configured bomb bay door was a KA-1 vertical camera, a K-477 split vertical day-night camera, an infrared scanner, and a KA-1 left oblique camera. The modified aircraft were redesignated RB-57E.

The 2nd Air Division was desperate for tactical intelligence and on arrival the pilots that ferried in the RB-57Es were immediately assigned to the Division as combat crews and briefed on missions by Divisional intelligence officers on the reconnaissance flights they would make.

The first mission was flown on 7 May 1963 by the highly classified Patricia Lynn squadron (Detachment 1,

460th Tactical Reconnaissance Wing) operating from Tan Son Nhut Air Base. The Detachment flew nighttime reconnaissance missions to identify Viet Cong (VC) base camps, small arms factories and storage and training areas. The sorties yielded results that heretofore only had been wished for. The nighttime imagery showed VC training and base camps; small, hidden factories and storage dumps that RF-101 Voodoo crews had flown over during the day and had been unable to locate from the air. The existing RF-101s in 1963 could only photograph a few kilometers (they had to fly very low) per flight with their cameras. The RB-57Es could image the whole border with Cambodia
in 2 1/2 flights at 16,000 feet (4,900 m) to 17,000 feet (5,200 m) with superior results.

From then on, Patricia Lynn crews flew both night and day missions over South Vietnam, Laos, Cambodia and areas of North Vietnam until 1971. The RB-57Es carried the call-sign "Moonglow". Some missions were flown at low-level over single targets, others consisted of 4–6 specific targets. At night RB-57Es flew the canals and rivers in the Mekong Delta and southern part of South Vietnam. The sampans were easy to spot with the "real time" IR if the crew could keep over the canal which was difficult in the darkness.

The United States began

C-130 Hercules
flare ship. Three more aircraft were subsequently modified in 1964/65 bringing the number of aircraft to five.

Two RB-57Es were lost in combat operations. The first (S/N 55-4243) was lost as a result of a fuselage fire caused by small arms while on a low level reconnaissance mission in August 1965. The crew ejected safely when near Tan Son Nhut Air Base. The second aircraft (S/N 55-4264) was lost on 21 October 1968, after an engine fire started by ground fire forced the crew to eject.

A sixth Patricia Lynn aircraft (55–4257) joined the team in 1968, as a replacement for the combat losses. This aircraft had a Terrain-following radar designed to allow the aircraft to fly at a constant altitude, which would, in theory, produce better reconnaissance photos. Unfortunately, the aircraft flew so low (500–1000 feet) that the infrared film was used up before the entire assessment area could be photographed.

A 1968 update, under the Compass Eagle program, gave the back-seater a video display to monitor the IR scanner system. This allowed the crew to call in strikes on targets in real time, instead of having to return to base to get imagery developed, by which time the enemy would have likely moved on.

There were frequent changes and updating of the equipment, including the installation of 12-inch focal length KA-82 and 24-inch focal length KA-83 cameras. The infrared equipment was useful in spotting VC river traffic at night along the Mekong Delta southeast of Saigon.

In 1969/70, Patricia Lynn missions were flown into Laos and into Cambodia including Operation Barrel Roll strikes in 1969. The Patricia Lynn operation was terminated in mid-1971 with the inactivation of the 460th TRW and the four surviving aircraft returned to the United States.[24]

Known RB-57E Patricia Lynn aircraft were:

  • Martin B-57E-MA 55-4243 Modified to RB-57E in 1963. Lost in combat with Detachment 1, 6250th Combat Support Group, when hit by ground fire 5 August 1965 and caught fire while on return to base.
  • Martin B-57E-MA 55–4245. Modified to RB-57E in 1963. Returned to CONUS June 1971. Converted to WB-57E. Retired to MASDC as BM0069 15 June 1972.
  • Martin B-57E-MA 55–4237. Modified to RB-57E in 1964. Returned to CONUS June 1971. Converted to WB-57E. Retired to MASDC as BM0070 28 June 1972.
  • Martin B-57E-MA 55–4249. Modified to RB-57E in 1964. Returned to CONUS June 1971. Converted to WB-57E. Retired to MASDC as BM0068 15 June 1972.
  • Martin B-57E-MA 55–4264. Modified to RB-57E in 1965. Lost in combat with Detachment 1, 460th Tactical Reconnaissance Wing, 25 October 1968 after being hit by ground fire 3 mi SW of Truc Giang, South Vietnam. Both crews ejected safely and were rescued.
  • Martin B-57E-MA 55–4257. Modified to RB-57E in 1968. Equipped with terrain-following radar. Converted to EB-57E in 1971 and transferred to ADC
    4677th Defense Systems Evaluation Squadron
    , Hill AFB, Utah. Retired to MASDC in 1979.

Later in August 1965, a single RB-57F would be deployed to Udorn, RTAB in an attempt to gather information about North Vietnamese SAM sites, first under project Greek God and then under project Mad King. In December another RB-57F would be deployed for this purpose, under project Sky Wave. Neither project garnered useful results and they were terminated in October 1965 and February 1966 respectively.[25]

Bombing and interdiction

The deployment of actual combat capable B-57Bs from 8th and 13th Bomb Squadrons to Bien Hoa Air Base in August 1964 began with two aircraft lost and one damaged in collisions on arrival.[26] An additional five aircraft were destroyed with another 15 damaged by a VC mortar attack in November of the same year. Low level sorties designated as training flights were conducted with the hope of it having a psychological effect. As a result, the first combat mission was only flown on 19 February 1965.[27] The first excursion into North Vietnam took place on 2 March as part of Operation Rolling Thunder. The aircraft typically carried nine 500 lb (227 kg) bombs in the bomb bay and four 750 lb (340 kg) bombs under the wings. In April, Canberras began flying night intruder missions supported by USAF's Fairchild C-123 Provider or C-130 Hercules flare ships and USN's EF-10B Skyknight electronic warfare aircraft.

B-57s were primarily used for dive bombing and strafing, with the early models mounting eight .50 caliber machine guns, four per wing. Later models mounted four

Steel Tiger, and Tiger Hound, gaining reputations with their "Centurion Club" which consisted of Canberra crews which attained 100 truck kills.[29]

On 16 May 1965, an armed B-57B exploded on the runway at Biên Hòa, setting off a chain reaction that destroyed 10 other Canberras, 11 Douglas A-1 Skyraiders, and one Vought F-8 Crusader. Due to combat attrition, in October 1966, B-57Bs were transferred to Phan Rang where they supported operations in the Iron Triangle along with Australian-built Canberra B.20s of No. 2 Squadron RAAF. The aircraft also continued to fly night interdiction missions against the Ho Chi Minh trail. Of the 94 B-57Bs deployed to Southeast Asia, 51 were lost in combat and seven other Canberras were lost to other causes. Only nine were still flying by 1969.[30]

B-57s returned to Southeast Asia in the form of the Tropic Moon III B-57G, deployed to Thailand in late 1970.

Thirteenth Air Forces and others as the decision had been made in August 1971 to return the B-57G squadron to the U.S. in early 1972, leaving insufficient evaluation time. Project Pave Gat was terminated 21 December 1971.[34] The B-57G was removed from Thailand in May 1972. Plans remained for the continuation of the B-57G program but post-conflict spending cuts forced the abandonment of these plans.[35]

For a short period

Republic of Vietnam Air Force (RVNAF) personnel operated four B-57B aircraft. The RVNAF never officially took control of the aircraft, and, after accidents and other problems, including apparent claims by RVNAF pilots that the B-57 was beyond their physical capabilities, the program was terminated in April 1966, and the aircraft were returned to their original USAF units.[36]

A total of 58 B-57 Canberras were recorded as having been lost during the Vietnam War; of these, 26 were lost to ground fire, five were lost to mortar fire and ground attack, four were lost to mid-air collision, ten were lost to airfield accidental bomb explosion, seven were lost to operational causes, and six were lost due to unknown causes.[37]

Pakistan

Pakistan Air Force B-57s

The

Indo-Pakistani War of 1965, B-57s flew 167 sorties, dropping over 600 tons of bombs. Three B-57s were lost in action (only one as a result of enemy action[38]), along with one RB-57F electronic intelligence aircraft.[39] During the war, the bomber wing of the PAF attacked the concentration of airfields in north India. To avoid enemy fighter-bombers, the B-57s operated from several different airbases, taking off from and returning to different bases.[40] The B-57 bombers would arrive over their targets in a stream at intervals of about 15 minutes, which led to achieving a major disruption of the overall IAF effort.[38] The then unknown Pakistani pilot, 8-Pass Charlie, (Squadron Leader Najeeb Ahmad Khan, Sitara-e-Jurrat) was named by his adversaries for making eight passes in the moonlight, to bomb different targets with each of the B-57's bombs.[41][42][43]

During the

Indo-Pakistani War of 1971, the PAF again made use of the B-57. On the first night, 12 IAF runways were targeted and a total of 183 bombs were dropped rendering the Indian airfields useless for 6 hours to 6 days.[44] As the war progressed, PAF B-57s carried out many night missions. There was a higher attrition rate than in 1965, with at least five B-57s being put out of service by the end of the war.[39][45]

PAF's B-57 Squadron was the first to form a regular formation aerobatics team of four such aircraft.[46]

They were retired from PAF service in 1985.

Variants

USAF B-57 dropping 750 lb (340 kg) bombs
A WB-57F flies over the Gulf of Mexico near its base at NASA JSC.
Panorama of Ellington field's hangar 990, with one of the three WB-57Fs inside.
B-57A
First production version; eight built.
B-57B
Definitive production version, tandem cockpit, 8x 0.50 in (12.7 mm) machine guns or 4x 20 mm cannons, four underwing hardpoints; 202 built.
B-57C
Dual-control trainer, first flight: 30 December 1954; 38 built.
B-57E
Dual-control trainer and target tug, first flight: 16 May 1956; 68 built.
B-57G
B-57Bs modified as night intruders with FLIR, LLTV and laser designator in the nose, capable of using laser-guided bombs; 16 converted.
EB-57A
Electronic aggressor aircraft converted from RB-57As.
EB-57B
ECM aircraft converted from B-57Bs.
EB-57D
ECM aircraft converted from RB-57Ds.
EB-57E
Electronic aggressor aircraft converted from RB-57Es.
RB-57A
Photo reconnaissance version with cameras installed aft of the bomb bay; 67 built. RB-57A avionics included an AN/APS-11A transponder and AN/APA-90 Indicator Group for command guidance (LEFT, RIGHT, CLIMB, DESCEND, BOMB, etc.) and was tested[where?] for "MSQ-1 controlled pinpoint photography" in 1954 ("Night Photo Bombing" capacity was 21 M-120 Photoflash Bombs).[47]
RB-57B
Photo-reconnaissance aircraft converted from B-57Bs for the Air National Guard.
RB-57C
Photo-reconnaissance aircraft converted from B-57Cs for the Air National Guard.
RB-57D
see: Martin RB-57D Canberra
High-altitude strategic reconnaissance version, J57-P-9 engines, wingspan increased to 106 ft (32.31 m), first flight: 3 November 1955; 20 built.
RB-57E
Basic photo-reconnaissance conversion for the Air National Guard.
RB-57E (
Patricia Lynn Project
)
B-57Es modified to all-weather reconnaissance aircraft, used in "Patricia Lynn" missions during the Vietnam War; six converted.
RB-57F
see:
Martin RB-57F Canberra
High-altitude strategic reconnaissance version developed by General Dynamics. Pratt & Whitney TF33 turbofan engines, wingspan increased to 122 ft (37.5 m), first flight 23 June 1963; 21 built.
WB-57D
Air Weather Service RB-57Ds used for nuclear atmospheric sampling testing.
WB-57F
Air Weather Service upgraded WB-57Ds. Used by
NOAA from 1960-1971.[48] Currently designated WB-57 - JSC. Three aircraft (registration numbers N926NA, N927NA, and N928NA) are operated by NASA Johnson Space Center (JSC) in Houston, Texas for space and earth sciences research.[49]

Operators

English Electric Canberra (dark blue) and B-57 (light blue) operators[50]
 Pakistan
 Taiwan
 United States
List of B-57 units of the United States Air Force

Aircraft on display

EB-57E at Wings Over the Rockies Museum, Colorado, 2007
RB-57A
B-57B
B-57B on display at the Air Zoo
  • 52-1499 -
    Wright-Patterson AFB, Dayton, Ohio. This aircraft was assigned to Wright-Patterson Air Force Base in Dayton, Ohio as a test aircraft in the early 1960s. In 1965, it was returned to combat configuration to replace combat losses in Southeast Asia. It was assigned to the 8th Bomb Squadron at Phan Rang AB, South Vietnam in 1967, where it flew combat missions for 212 years. Upon return to the United States, it was converted to an electronic countermeasures EB-57B and was flown to the museum in August 1981. It is on display in the Museum's Modern Flight gallery where it replaced an RB-57A (AF Ser. No. 52-1492) that had been on display at the Museum since April 1968. In 2012 Museum staff reconverted it to stock B-57B configuration and placed it back on display.[64]
  • 52-1576 -
  • 52-1584 -
EB-57B
B-57C
B-57E
EB-57E
RB-57D

Specifications (B-57B)

B/C model, 3-view

Data from Quest for Performance,[85] Jet Bombers.[86]

General characteristics

  • Crew: 2 (pilot, navigator)
  • Length: 65 ft 6 in (20.0 m)
  • Wingspan: 64 ft 0 in (19.5 m)
  • Height: 14 ft 10 in (4.52 m)
  • Wing area: 960 sq ft (89 m2)
  • Empty weight: 27,090 lb (12,285 kg)
  • Gross weight: 40,345 lb (18,300 kg)
  • Max takeoff weight: 53,720 lb (24,365 kg)
  • Zero-lift drag coefficient: 0.0119
  • Drag area: 11.45 ft2 (1.06 m2)
  • Aspect ratio
    :
    4.27
  • Powerplant: 2 × Wright J65-W-5 turbojets, 7,220 lbf (32.1 kN) thrust each

Performance

  • Maximum speed: 598 mph (960 km/h, 520 kn) at 2,500 ft (760 m)
  • Maximum speed: Mach 0.79
  • Cruise speed: 476 mph (765 km/h, 414 kn)
  • Stall speed: 124 mph (200 km/h, 108 kn)
  • Combat range: 950 mi (1,530 km, 825 nmi) with 5,250 lb (2,380 kg) of bombs
  • Ferry range: 2,720 mi (4,380 km, 2,360 nmi)
  • Service ceiling: 45,100 ft (13,745 m)
  • Rate of climb: 6,180 ft/min (31.4 m/s)
  • Wing loading: 42 lb/sq ft (205 kg/m2)
  • Thrust/weight: 0.36
  • Lift-to-drag ratio: 15.0

Armament

  • Guns:20 mm (0.787 in) M39 cannon, 290 rounds/gun
  • Bombs: ** 4,500 lb (2,000 kg) in bomb bay, including nuclear bombs
    • 2,800 lb (1,300 kg) on four external hardpoints, including unguided rockets

Avionics

  • APW-11 Bombing Air Radar Guidance System
  • SHORAN bombing system
  • APS-54 Radar Warning Receiver

See also

External videos
video icon Documentary on the Martin B-57 Canberra
video icon Footage of B-57 Canberras in service
video icon Period film on B-57 Emergency Single-Engine Landing Procedure
video icon NASA B-57 Canberra at Prestwick, Scotland

Related development

Aircraft of comparable role, configuration, and era

Related lists

References

Notes

  1. ^ a b c d e f g h i j k Gunston and Gilchrist 1993, p. 150.
  2. ^ a b "WB-57." NASA. Retrieved: 10 March 2014.
  3. ^ Bell 2011, p. 15.
  4. ^ Axe, David. "America’s most important warplane is old, ugly ... and flown by NASA." wired.com, 10 September 2012.
  5. ^ a b c d e f g h Gunston and Gilchrist 1993, p. 151.
  6. ^ Gunston and Gilchrist 1993, pp. 150-151.
  7. ^ "Pivoting Bomb-bay Door Permits Accurate Drops at High-Speeds." Popular Mechanics, February 1954, p. 126.
  8. ^ Gunston and Gilchrist 1993, pp. 151-152.
  9. ^ a b Gunston and Gilchrist 1993, p. 152.
  10. ^ Gunston and Gilchrist 1993, pp. 152-153.
  11. ^ a b c d e Gunston and Gilchrist 1993, p. 153.
  12. ^ Gunston and Gilchrist 1993, p. 154.
  13. ^ Gunston and Gilchrist 1993, pp. 154-155.
  14. ^ "Heart Throb." Archived 2011-09-27 at the Wayback Machine Spyflight. Retrieved: 5 July 2010.
  15. .
  16. ^ Witt, Lt Col Marquis. "EB-57 Electronic Countermeasures(ECM)." b-57canberra.org. Retrieved: 22 January 2011.
  17. ^ "Martin B-57B Canberra." Archived 2010-08-15 at the Wayback Machine National Museum of the United States Air Force. Retrieved: 22 January 2011.
  18. ^ "Martin EB-57B Canberra." Archived 2010-11-24 at the Wayback Machine March Field Air Museum. Retrieved: 22 January 2011.
  19. ^ Mikesh 1977, pp. 46–47.
  20. ^ "WB-57 - JSC | NASA Airborne Science Program".
  21. ^ Tarantola, Andrew. "Why Are the Most Vital Aircraft in the USAF Arsenal Owned by NASA?" Gizmodo, 2 November 2013.
  22. ^ Filmer, Paul. "NASA’s new WB-57F, N927NA, flies for the first time in 41 years." Global Aviation Resource, 10 August 2013.
  23. ^ Smith 1966, p. 8.
  24. .
  25. ^ Smith 1966, pp. 41–42.
  26. ^ Bell 2011, p. 91.
  27. ^ Drendel 1982, pp. 13–14.
  28. ^ Bell 2011, pp. 8, 16, 19–21, 43.
  29. ^ Bell 2011, p. 72.
  30. ^ Bell 2011, pp. 73, 91.
  31. ^ Pfau and Greenhalgh 1978
  32. ^ Pfau and Greenhalgh 1978, p. 29.
  33. ^ Pfau and Greenhalgh 1978, p. 64.
  34. ^ Pfau and Greenhalgh 1978, pp. 45–49.
  35. ^ Pfau and Greenhalgh 1978, pp. 91–92.
  36. ^ Mesko 1987, p. 43.
  37. ^ Hobson 2001, p. 268.
  38. ^ a b "PAF and the three wars." Archived 2011-06-08 at the Wayback Machine defencejournal.com, 2001. Retrieved: 5 July 2010.
  39. ^ a b Baugher, Joe. "B-57 with Pakistan." Martin B-57, Joe Baugher's Encyclopedia of American Aircraft, 6 May 2001. Retrieved: 5 July 2010.
  40. ^ "B-57: The Intrepid bomber of the PAF." Archived 27 February 2018 at the Wayback Machine Defencejournal.com. Retrieved: 24 June 2012.
  41. ^ Air Cdre (R) Najeeb A. Khan. "Will The Real "8-Pass Charlie" Stand Up". Second To None. Directorate of Media Affairs Pakistan Air Force.{{cite magazine}}: CS1 maint: numeric names: authors list (link)
  42. ^ "The Class of ’65." The Indian Express, 30 July 2006. Retrieved: 24 September 2006.
  43. ^ Jagan Mohan and Chopra. 2005, pp. 241–243.
  44. ^ Lal, Air Chief Marshal P.C. My Days with the IAF.
  45. ^ "IAF Claims vs. Official List of Pakistani Losses." Archived 2006-05-03 at the Wayback Machine bharat-rakshak.com. Retrieved: 5 July 2010.
  46. ^ "B-57: The intrepid bomber of PAF." Archived 27 February 2018 at the Wayback Machine Defencejournal.com. Retrieved: 24 June 2012.
  47. ^ Operational Suitability Test of the RB-57A Aircraft (Interim Report: Project No. APG/TAT/122-A). Vol. DTIC AD-046 931 (cleared for public release, 4 May 2000). Eglin AF Base, Fla: Air Proving Ground Command. 14 September 1954. Radar contact was frequently lost by the ground station when the aircraft was in banks of 15-20 degrees or more. This was attributed to the location of the [AN/APS-11A transponder] antennae on the aircraft. … All drops consisted of three bombs individually released with the aircraft intended to be directly over the target when the second bomb exploded. Bursting altitudes were computed for one-half of release altitude. … The RB-57A is suitable for night photographic reconnaissance when operating within range of either ground radar or Shoran installations
  48. ^ Dorst, Neal M. "The National Hurricane Research Center - 50 Years of Research, Rough Rides, and Name Changes" (PDF). amol.noaa.gov. Retrieved 21 July 2020.
  49. ^ NASA.gov accessed 13 June 2021
  50. ^ Jones 2006, pp. 93–97.
  51. ^ Hali, Gp Capt Sultan M. "B-57: The Intrepid Bomber of PAF." Archived 27 February 2018 at the Wayback Machine Defence Journal. Retrieved: 11 May 2011.
  52. ^ "The Canberra High Altitude Mission Platform." National Center for Atmospheric Research, Boulder, Colorado. Retrieved: 5 July 2010.
  53. ^ "NOAA Photo Library > Collections > Flying with NOAA > the Heavies > B-57". photolib.noaa.gov. Retrieved 29 April 2020.
  54. ^ "B-57 Canberra/52-1426." aerialvisuals.ca Retrieved: 4 June 2015.
  55. ^ "B-57 Canberra/52-1446." Archived 2017-04-01 at the Wayback Machine Glenn L. Martin Maryland Aviation Museum. Retrieved: 8 April 2013.
  56. ^ "B-57 Canberra/52-1459." Archived 5 May 2015 at the Wayback Machine Wings of Eagles Discovery Center. Retrieved: 4 June 2015.
  57. ^ "B-57 Canberra/52-1467." Archived 2017-04-01 at the Wayback Machine Glenn L. Martin Maryland Aviation Museum. Retrieved: 8 April 2013.
  58. ^ "B-57 Canberra/52-1475." Archived 2012-05-19 at the Wayback Machine Museum of Aviation. Retrieved: 5 December 2012.
  59. ^ "USAF Serial Number Search (52-1480)".[permanent dead link]
  60. ^ "B-57 Canberra/52-1482." aerialvisuals.ca Retrieved: 4 June 2015.
  61. ^ "B-57 Canberra/52-1485." Archived 4 March 2016 at the Wayback Machine Selfridge Military Air Museum. Retrieved: 4 June 2015.
  62. ^ "B-57 Canberra/52-1488." New England Air Museum. Retrieved: 5 December 2012.
  63. ^ "B-57 Canberra/52-1492." Archived 2013-05-20 at the Wayback Machine Hill Aerospace Museum. Retrieved: 5 December 2012.
  64. ^ "B-57 Canberra/52-1499." Archived 2010-08-15 at the Wayback Machine National Museum of the United States Air Force. Retrieved: 5 July 2010. October 2012 visit to NMUSAF and display panel in front of the aircraft.
  65. ^ "B-57 Canberra/52-1576." Archived 2017-01-02 at the Wayback Machine Air Force Flight Test Center Museum. Retrieved: 4 June 2015.
  66. ^ "B-57 Canberra/52-1584." aerialvisuals.ca Retrieved: 4 June 2015.
  67. ^ "B-57 Canberra/52-1500." aerialvisuals.ca Retrieved: 4 June 2015.
  68. ^ "B-57 Canberra/52-1504." aerialvisuals.ca Retrieved: 4 June 2015.
  69. ^ "B-57 Canberra/52-1505." aerialvisuals.ca Retrieved: 4 June 2015.
  70. ^ "B-57 Canberra/52-1506." aerialvisuals.ca Retrieved: 4 June 2015.
  71. ^ "B-57 Canberra/52-1509." aerialvisuals.ca Retrieved: 4 June 2015.
  72. ^ "B-57 Canberra/52-1516." Archived 2014-10-12 at the Wayback Machine Air Force Armament Museum. Retrieved: 5 December 2012.
  73. ^ "B-57 Canberra/52-1519." Archived 2015-05-30 at the Wayback Machine March Field Air Museum." Retrieved: 4 June 2015.
  74. ^ "B-57 Canberra/52-1526." aerialvisuals.ca Retrieved: 4 June 2015.
  75. ^ "B-57 Canberra/52-1548." aerialvisuals.ca Retrieved: 4 June 2015.
  76. ^ [1] museumofaviation.or Retrieved: 4 February 2021.
  77. ^ [2][permanent dead link] airandspace.si.edu Retrieved: 4 February 2021.
  78. ^ "B-57 Canberra/53-3841." aerialvisuals.ca Retrieved: 4 June 2015.
  79. ^ "B-57 Canberra/55-4244." Strategic Air Command Museum. Retrieved: 4 June 2015.
  80. ^ "B-57 Canberra/55-4274." Archived 2 April 2015 at the Wayback Machine Pima Air & Space Museum. Retrieved: 4 June 2015.
  81. ^ "B-57 Canberra/55-4253." Archived 2016-11-14 at the Wayback Machine Castle Air Museum. Retrieved: 4 June 2015.
  82. ^ "B-57 Canberra/55-4279." Peterson Aerospace Museum. Retrieved: 4 June 2015.
  83. ^ "B-57 Canberra/55-4293." Archived 27 June 2015 at the Wayback Machine Wings over the Rockies Air and Space Museum. Retrieved: 4 June 2015.
  84. ^ "Martin RB-57D > National Museum of the US Air Force™ > Display". www.nationalmuseum.af.mil. Retrieved 30 July 2016.
  85. ^ Loftin, LK, Jr. "NASA SP-468: Quest for Performance: The Evolution of Modern Aircraft." NASA. Retrieved: 5 July 2010.
  86. ^ Gunston and Gilchrist 1993, p. 155.

Bibliography

External links