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Airbus A300
The A300 has two underwing podded turbofans, making it the first twinjet wide-body airliner. Seen here operated by Iran Air in 2011, its largest remaining passenger operator as of 2024.
General information
RoleWide-body airliner
National originFrance and West Germany
ManufacturerAirbus
StatusIn service
Primary usersFedEx Express
Number built561
History
Manufactured1971–2007
Introduction date23 May 1974 with Air France
First flight28 October 1972; 52 years ago (1972-10-28)
Developed into

The Airbus A300 is Airbus' first production aircraft and the world's first twin-engine, double-aisle (wide-body) airliner. It was developed by Airbus Industrie GIE, now merged into Airbus SE, and manufactured from 1971 to 2007.

In September 1967, aircraft manufacturers in France, West Germany and the United Kingdom signed an initial memorandum of understanding to collaborate to develop an innovative large airliner. The French and West Germans reached a firm agreement on 29 May 1969, after the British withdrew from the project on 10 April 1969. A new collaborative aerospace company, Airbus Industrie GIE, was formally created on 18 December 1970 to develop and produce it. The A300 prototype first flew on 28 October 1972.

The first twin-engine widebody airliner, the A300 typically seats 247 passengers in two classes over a range of 5,375 to 7,500 km (2,900 to 4,050 nmi; 3,340 to 4,660 mi). Initial variants are powered by General Electric CF6-50 or Pratt & Whitney JT9D turbofans and have a three-crew flight deck. The improved A300-600 has a two-crew cockpit and updated CF6-80C2 or PW4000 engines; it made its first flight on 8 July 1983 and entered service later that year. The A300 is the basis of the smaller A310 (first flown in 1982) and was adapted in a freighter version. Its cross section was retained for the larger four-engined A340 (1991) and the larger twin-engined A330 (1992). It is also the basis for the oversize Beluga transport (1994). Unlike most Airbus products, it has a yoke, not using a fly-by-wire system.

Launch customer Air France introduced the type on 23 May 1974. After limited demand initially, sales took off as the type was proven in early service, beginning three decades of steady orders. It has a similar capacity to the Boeing 767-300, introduced in 1986, but lacked the 767-300ER range. During the 1990s, the A300 became popular with cargo aircraft operators, as both passenger airliner conversions and as original builds. Production ceased in July 2007 after 561 deliveries. As of September 2023, there are 197 A300 family aircraft still in commercial service.

Development

Origins

In 1966, Hawker Siddeley, Nord Aviation, and Breguet Aviation proposed the 260-seat wide-body HBN 100 with a similar configuration

During the 1960s, European aircraft manufacturers such as Hawker Siddeley and the British Aircraft Corporation, based in the UK, and Sud Aviation of France, had ambitions to build a new 200-seat airliner for the growing civil aviation market. While studies were performed and considered, such as a stretched twin-engine variant of the Hawker Siddeley Trident and an expanded development of the British Aircraft Corporation (BAC) One-Eleven, designated the BAC Two-Eleven, it was recognized that if each of the European manufacturers were to launch similar aircraft into the market at the same time, neither would achieve sales volume needed to make them viable. In 1965, a British government study, known as the Plowden Report, had found British aircraft production costs to be between 10% and 20% higher than American counterparts due to shorter production runs, which was in part due to the fractured European market. To overcome this factor, the report recommended the pursuit of multinational collaborative projects between the region's leading aircraft manufacturers.

European manufacturers were keen to explore prospective programmes; the proposed 260-seat wide-body HBN 100 between Hawker Siddeley, Nord Aviation, and Breguet Aviation being one such example. National governments were also keen to support such efforts amid a belief that American manufacturers could dominate the European Economic Community; in particular, Germany had ambitions for a multinational airliner project to invigorate its aircraft industry, which had declined considerably following the Second World War. During the mid-1960s, both Air France and American Airlines had expressed interest in a short-haul twin-engine wide-body aircraft, indicating a market demand for such an aircraft to be produced. In July 1967, during a high-profile meeting between French, German, and British ministers, an agreement was made for greater cooperation between European nations in the field of aviation technology, and "for the joint development and production of an airbus". The word airbus at this point was a generic aviation term for a larger commercial aircraft, and was considered acceptable in multiple languages, including French.

Technical director Roger Béteille (from behind) discussing with general manager Henri Ziegler beside the CF6 turbofan, which powered the A300 first flight

Shortly after the July 1967 meeting, French engineer Roger Béteille was appointed as the technical director of what would become the A300 programme, while Henri Ziegler, chief operating office of Sud Aviation, was appointed as the general manager of the organisation and German politician Franz Josef Strauss became the chairman of the supervisory board. Béteille drew up an initial work share plan for the project, under which French firms would produce the aircraft's cockpit, the control systems, and lower-centre portion of the fuselage, Hawker Siddeley would manufacture the wings, while German companies would produce the forward, rear and upper part of the center fuselage sections. Additional work included moving elements of the wings being produced in the Netherlands, and Spain producing the horizontal tail plane.

An early design goal for the A300 that Béteille had stressed the importance of was the incorporation of a high level of technology, which would serve as a decisive advantage over prospective competitors. For this reason, the A300 would feature the first use of composite materials of any passenger aircraft, the leading and trailing edges of the tail fin being composed of glass fibre reinforced plastic. Béteille opted for English as the working language for the developing aircraft, as well against using Metric instrumentation and measurements, as most airlines already had US-built aircraft. These decisions were partially influenced by feedback from various airlines, such as Air France and Lufthansa, as an emphasis had been placed on determining the specifics of what kind of aircraft that potential operators were seeking. According to Airbus, this cultural approach to market research had been crucial to the company's long-term success.

Workshare and redefinition

On 26 September 1967, the French, West German and British governments signed a Memorandum of Understanding to start the development of the 300-seat Airbus A300. At this point, the A300 was only the second major joint aircraft programme in Europe, the first being the Anglo-French Concorde. Under the terms of the memorandum, the French and British were to each receive a 37.5 per cent work share on the project, while the West Germans would receive a 25 per cent share. Sud Aviation was recognized as the lead contractor for the A300, with Hawker Siddeley being selected as the British partner company. At the time, the news of the announcement had been clouded by the British Government's support for the Airbus, which coincided with its refusal to back BAC's proposed competitor, the BAC 2–11, despite a preference for the latter expressed by British European Airways (BEA). Another parameter was the requirement for a new engine to be developed by Rolls-Royce to power the proposed airliner; a derivative of the in-development Rolls-Royce RB211, the triple-spool RB207, capable of producing of 47,500 lbf (211 kN). The programme cost was US$4.6 billion (in 1993 dollars, equivalent to $8.76 billion in 2023).

The 5.64 m (222 in) diameter circular fuselage section for 8-abreast seating and 2 LD3 containers below. This is part of the first A300 prototype, F-OCAZ, on display at Deutsches Museum in Munich.

In December 1968, the French and British partner companies (Sud Aviation and Hawker Siddeley) proposed a revised configuration, the 250-seat Airbus A250. It had been feared that the original 300-seat proposal was too large for the market, thus it had been scaled down to produce the A250. The dimensional changes involved in the shrink reduced the length of the fuselage by 5.62 metres (18.4 ft) and the diameter by 0.8 metres (31 in), reducing the overall weight by 25 tonnes (55,000 lb). For increased flexibility, the cabin floor was raised so that standard LD3 freight containers could be accommodated side-by-side, allowing more cargo to be carried. Refinements made by Hawker Siddeley to the wing's design provided for greater lift and overall performance; this gave the aircraft the ability to climb faster and attain a level cruising altitude sooner than any other passenger aircraft. It was later renamed the A300B.

Perhaps the most significant change of the A300B was that it would not require new engines to be developed, being of a suitable size to be powered by Rolls-Royce's RB211, or alternatively the American Pratt & Whitney JT9D and General Electric CF6 powerplants; this switch was recognized as considerably reducing the project's development costs. To attract potential customers in the US market, it was decided that General Electric CF6-50 engines would power the A300 in place of the British RB207; these engines would be produced in co-operation with French firm Snecma. By this time, Rolls-Royce had been concentrating their efforts upon developing their RB211 turbofan engine instead and progress on the RB207's development had been slow for some time, the firm having suffered due to funding limitations, both of which had been factors in the engine switch decision.

On 10 April 1969, a few months after the decision to drop the RB207 had been announced, the British government announced that they would withdraw from the Airbus venture. In response, West Germany proposed to France that they would be willing to contribute up to 50% of the project's costs if France was prepared to do the same. Additionally, the managing director of Hawker Siddeley, Sir Arnold Alexander Hall, decided that his company would remain in the project as a favoured sub-contractor, developing and manufacturing the wings for the A300, which would prove to be an important contributor to the performance of subsequent versions. Hawker Siddeley spent £35 million of its own funds, along with a further £35 million loan from the West German government, on the machine tooling to design and produce the wings.

Programme launch

An A300 in vintage Airbus livery, it was rolled out on 28 September 1972

On 29 May 1969, during the Paris Air Show, French transport minister Jean Chamant and German economics minister Karl Schiller signed an agreement officially launching the Airbus A300, the world's first twin-engine widebody airliner. The intention of the project was to produce an aircraft that was smaller, lighter, and more economical than its three-engine American rivals, the McDonnell Douglas DC-10 and the Lockheed L-1011 TriStar. In order to meet Air France's demands for an aircraft larger than 250-seat A300B, it was decided to stretch the fuselage to create a new variant, designated as the A300B2, which would be offered alongside the original 250-seat A300B, henceforth referred to as the A300B1. On 3 September 1970, Air France signed a letter of intent for six A300s, marking the first order to be won for the new airliner.

In the aftermath of the Paris Air Show agreement, it was decided that, in order to provide effective management of responsibilities, a Groupement d'intérêt économique would be established, allowing the various partners to work together on the project while remaining separate business entities. On 18 December 1970, Airbus Industrie was formally established following an agreement between Aérospatiale (the newly merged Sud Aviation and Nord Aviation) of France and the antecedents to Deutsche Aerospace of Germany, each receiving a 50 per cent stake in the newly formed company. In 1971, the consortium was joined by a third full partner, the Spanish firm CASA, who received a 4.2 per cent stake, the other two members reducing their stakes to 47.9 per cent each. In 1979, Britain joined the Airbus consortium via British Aerospace, which Hawker Siddeley had merged into, which acquired a 20 per cent stake in Airbus Industrie with France and Germany each reducing their stakes to 37.9 per cent.

Prototype and flight testing

The 28 October 1972 maiden flight

Airbus Industrie was initially headquartered in Paris, which is where design, development, flight testing, sales, marketing, and customer support activities were centred; the headquarters was relocated to Toulouse in January 1974. The final assembly line for the A300 was located adjacent to Toulouse Blagnac International Airport. The manufacturing process necessitated transporting each aircraft section being produced by the partner companies scattered across Europe to this one location. The combined use of ferries and roads were used for the assembly of the first A300, however this was time-consuming and not viewed as ideal by Felix Kracht, Airbus Industrie's production director. Kracht's solution was to have the various A300 sections brought to Toulouse by a fleet of Boeing 377-derived Aero Spacelines Super Guppy aircraft, by which means none of the manufacturing sites were more than two hours away. Having the sections airlifted in this manner made the A300 the first airliner to use just-in-time manufacturing techniques, and allowed each company to manufacture its sections as fully equipped, ready-to-fly assemblies.

In September 1969, construction of the first prototype A300 began. On 28 September 1972, this first prototype was unveiled to the public, it conducted its maiden flight from Toulouse–Blagnac International Airport on 28 October that year. This maiden flight, which was performed a month ahead of schedule, lasted for one hour and 25 minutes; the captain was Max Fischl and the first officer was Bernard Ziegler, son of Henri Ziegler. In 1972, unit cost was US$17.5M. On 5 February 1973, the second prototype performed its maiden flight. The flight test programme, which involved a total of four aircraft, was relatively problem-free, accumulating 1,580 flight hours throughout. In September 1973, as part of promotional efforts for the A300, the new aircraft was taken on a six-week tour around North America and South America, to demonstrate it to airline executives, pilots, and would-be customers. Amongst the consequences of this expedition, it had allegedly brought the A300 to the attention of Frank Borman, the CEO of Eastern Airlines, one of the "big four" U.S. airlines.

Entry into service

On 15 March 1974, type certificates were granted for the A300 from both German and French authorities, clearing the way for its entry into revenue service. On 23 May 1974, Federal Aviation Administration (FAA) certification was received. The first production model, the A300B2, entered service in 1974, followed by the A300B4 one year later. Initially, the success of the consortium was poor, in part due to the economic consequences of the 1973 oil crisis, but by 1979 there were 81 A300 passenger liners in service with 14 airlines, alongside 133 firm orders and 88 options. Ten years after the official launch of the A300, the company had achieved a 26 per cent market share in terms of dollar value, enabling Airbus to proceed with the development of its second aircraft, the Airbus A310.

Design

The A300 is a conventional low wing aircraft with twin underwing turbofans and a conventional tail

The Airbus A300 is a wide-body medium-to-long range airliner; it has the distinction of being the first twin-engine wide-body aircraft in the world. In 1977, the A300 became the first Extended Range Twin Operations (ETOPS)-compliant aircraft, due to its high performance and safety standards. Another world-first of the A300 is the use of composite materials on a commercial aircraft, which were used on both secondary and later primary airframe structures, decreasing overall weight and improving cost-effectiveness. Other firsts included the pioneering use of centre-of-gravity control, achieved by transferring fuel between various locations across the aircraft, and electrically signalled secondary flight controls.

The A300 is powered by a pair of underwing turbofan engines, either General Electric CF6 or Pratt & Whitney JT9D engines; the sole use of underwing engine pods allowed for any suitable turbofan engine to be more readily used. The lack of a third tail-mounted engine, as per the trijet configuration used by some competing airliners, allowed for the wings to be located further forwards and to reduce the size of the vertical stabiliser and elevator, which had the effect of increasing the aircraft's flight performance and fuel efficiency.

The initial A300 flight deck with analog flight instruments and a flight engineer station (not shown)

Airbus partners had employed the latest technology, some of which having been derived from Concorde, on the A300. According to Airbus, new technologies adopted for the airliner were selected principally for increased safety, operational capability, and profitability. Upon entry into service in 1974, the A300 was a very advanced plane, which went on to influence later airliner designs. The technological highlights include advanced wings by de Havilland (later BAE Systems) with supercritical airfoil sections for economical performance and advanced aerodynamically efficient flight control surfaces. The 5.64 m (222 in) diameter circular fuselage section allows an eight-abreast passenger seating and is wide enough for 2 LD3 cargo containers side by side. Structures are made from metal billets, reducing weight. It is the first airliner to be fitted with wind shear protection. Its advanced autopilots are capable of flying the aircraft from climb-out to landing, and it has an electrically controlled braking system.

Later A300s incorporated other advanced features such as the Forward-Facing Crew Cockpit (FFCC), which enabled a two-pilot flight crew to fly the aircraft alone without the need for a flight engineer, the functions of which were automated; this two-man cockpit concept was a world-first for a wide-body aircraft. Glass cockpit flight instrumentation, which used cathode-ray tube (CRT) monitors to display flight, navigation, and warning information, along with fully digital dual autopilots and digital flight control computers for controlling the spoilers, flaps, and leading-edge slats, were also adopted upon later-built models. Additional composites were also made use of, such as carbon-fibre-reinforced polymer (CFRP), as well as their presence in an increasing proportion of the aircraft's components, including the spoilers, rudder, air brakes, and landing gear doors. Another feature of later aircraft was the addition of wingtip fences, which improved aerodynamic performance and thus reduced cruise fuel consumption by about 1.5% for the A300-600.

In addition to passenger duties, the A300 became widely used by air freight operators; according to Airbus, it is the best-selling freight aircraft of all time. Various variants of the A300 were built to meet customer demands, often for diverse roles such as aerial refueling tankers, freighter models (new-build and conversions), combi aircraft, military airlifter, and VIP transport. Perhaps the most visually unique of the variants is the A300-600ST Beluga, an oversized cargo-carrying model operated by Airbus to carry aircraft sections between their manufacturing facilities. The A300 was the basis for, and retained a high level of commonality with, the second airliner produced by Airbus, the smaller Airbus A310.

Operational history

Air France introduced the A300 on 23 May 1974

On 23 May 1974, the first A300 to enter service performed the first commercial flight of the type, flying from Paris to London, for Air France.

Immediately after the launch, sales of the A300 were weak for some years, with most orders going to airlines that had an obligation to favor the domestically made product – notably Air France and Lufthansa, the first two airlines to place orders for the type. Following the appointment of Bernard Lathière as Henri Ziegler's replacement, an aggressive sales approach was adopted. Indian Airlines was the world's first domestic airline to purchase the A300, ordering three aircraft with three options. However, between December 1975 and May 1977, there were no sales for the type. During this period a number of "whitetail" A300s – completed but unsold aircraft – were completed and stored at Toulouse, and production fell to half an aircraft per month amid calls to pause production completely.

Korean Air, the first non-European customer in September 1974

During the flight testing of the A300B2, Airbus held a series of talks with Korean Air on the topic of developing a longer-range version of the A300, which would become the A300B4. In September 1974, Korean Air placed an order for four A300B4s with options for two further aircraft; this sale was viewed as significant as it was the first non-European international airline to order Airbus aircraft. Airbus had viewed South-East Asia as a vital market that was ready to be opened up and believed Korean Air to be the 'key'.

Airlines operating the A300 on short-haul routes were forced to reduce frequencies to try and fill the aircraft. As a result, they lost passengers to airlines operating more frequent narrow-body flights. Eventually, Airbus had to build its own narrowbody aircraft (the A320) to compete with the Boeing 737 and McDonnell Douglas DC-9/MD-80. The saviour of the A300 was the advent of ETOPS, a revised FAA rule which allows twin-engine jets to fly long-distance routes that were previously off-limits to them. This enabled Airbus to develop the aircraft as a medium/long-range airliner.

Eastern Air Lines introduced the A300 in the US market in 1977

In 1977, US carrier Eastern Air Lines leased four A300s as an in-service trial. CEO Frank Borman was impressed that the A300 consumed 30% less fuel, even less than expected, than Eastern's fleet of L-1011s. The A300 would replacing the aging DC-9s and 727-100s but in smaller numbers, while being a twinjet sized between the Tristars and 727-200s, and capable of operating from short runway airports with sufficient range from New York City to Miami. Borman proceeded to order 23 A300s, becoming the first U.S. customer for the type. This order is often cited as the point at which Airbus came to be seen as a serious competitor to the large American aircraft-manufacturers Boeing and McDonnell Douglas. Aviation author John Bowen alleged that various concessions, such as loan guarantees from European governments and compensation payments, were a factor in the decision as well. Although the A300 was originally too large for Eastern's exiting routes, Airbus provided a fixed subsidy for a 57% load factor which decreased for every percent above that figure. The Eastern Air Lines breakthrough was shortly followed by an order from Pan Am. From then on, the A300 family sold well, eventually reaching a total of 561 delivered aircraft.

In December 1977, Aerocondor Colombia became the first Airbus operator in Latin America, leasing one Airbus A300B4-2C, named Ciudad de Barranquilla.

During the late 1970s, Airbus adopted a so-called 'Silk Road' strategy, targeting airlines in the Far East. As a result, The aircraft found particular favor with Asian airlines, being bought by Japan Air System, Korean Air, China Eastern Airlines, Thai Airways International, Singapore Airlines, Malaysia Airlines, Philippine Airlines, Garuda Indonesia, China Airlines, Pakistan International Airlines, Indian Airlines, Trans Australia Airlines and many others. As Asia did not have restrictions similar to the FAA 60-minutes rule for twin-engine airliners which existed at the time, Asian airlines used A300s for routes across the Bay of Bengal and South China Sea.

Garuda Indonesia Airbus A300B4-220 with the newly designed Forward Facing Crew Cockpit or FFCC Concept that operated only by two-man cockpit crew and was the first wide-body aircraft to be operated by two-man cockpit crew.

In 1977, the A300B4 became the first ETOPS compliant aircraft, qualifying for Extended Twin Engine Operations over water, providing operators with more versatility in routing. In 1982, Garuda Indonesian Airways became the first airline to fly the A300B4-200FFCC with the newly Forward-Facing Crew Cockpit concept, the world's first wide-body aircraft that only operated by two-man cockpit crew. By 1981, Airbus was growing rapidly, with over 400 aircraft sold to over forty airlines.

In 1989, Chinese operator China Eastern Airlines received its first A300; by 2006, the airline operated around 18 A300s, making it the largest operator of both the A300 and the A310 at that time. On 31 May 2014, China Eastern officially retired the last A300-600 in its fleet, having begun drawing down the type in 2010.

From 1997 to 2014, a single A300, designated A300 Zero-G, was operated by the European Space Agency (ESA), centre national d'études spatiales (CNES) and the German Aerospace Center (DLR) as a reduced-gravity aircraft for conducting research into microgravity; the A300 is the largest aircraft to ever have been used in this capacity. A typical flight would last for two and a half hours, enabling up to 30 parabolas to be performed per flight.

On 12 July 2007, the last A300, a freighter, was delivered to FedEx Express, as of May 2022 the largest operator with 65 aircraft still in service

By the 1990s, the A300 was being heavily promoted as a cargo freighter. The largest freight operator of the A300 is FedEx Express, which has 65 A300 aircraft in service as of May 2022. UPS Airlines also operates 52 freighter versions of the A300.

The final version was the A300-600R and is rated for 180-minute ETOPS. The A300 has enjoyed renewed interest in the secondhand market for conversion to freighters; large numbers were being converted during the late 1990s. The freighter versions – either new-build A300-600s or converted ex-passenger A300-600s, A300B2s and B4s – account for most of the world's freighter fleet after the Boeing 747 freighter.

The A300 provided Airbus the experience of manufacturing and selling airliners competitively. The basic fuselage of the A300 was later stretched (A330 and A340), shortened (A310), or modified into derivatives (A300-600ST Beluga Super Transporter). In 2006, unit cost of an −600F was $105 million. In March 2006, Airbus announced the impending closure of the A300/A310 final assembly line, making them the first Airbus aircraft to be discontinued. The final production A300, an A300F freighter, performed its initial flight on 18 April 2007, and was delivered to FedEx Express on 12 July 2007. Airbus has announced a support package to keep A300s flying commercially. Airbus offers the A330-200F freighter as a replacement for the A300 cargo variants.

The life of UPS's fleet of 52 A300s, delivered from 2000 to 2006, will be extended to 2035 by a flight deck upgrade based around Honeywell Primus Epic avionics; new displays and flight management system (FMS), improved weather radar, a central maintenance system, and a new version of the current enhanced ground proximity warning system. With a light usage of only two to three cycles per day, it will not reach the maximum number of cycles by then. The first modification will be made at Airbus Toulouse in 2019 and certified in 2020. As of July 2017, there are 211 A300s in service with 22 operators, with the largest operator being FedEx Express with 68 A300-600F aircraft.

Variants

A300B1

The two A300B1 prototypes were 51 m (167 ft) long

The A300B1 was the first variant to take flight. It had a maximum takeoff weight (MTOW) of 132 t (291,000 lb), was 51 m (167 ft) long and was powered by two General Electric CF6-50A engines. Only two prototypes of the variant were built before it was adapted into the A300B2, the first production variant of the airliner. The second prototype was leased to Trans European Airways in 1974.

A300B2

The A300B2 was 53.6 m (176 ft) long, 2.6 m (8.5 ft) longer than the A300B1

A300B2-100

Responding to a need for more seats from Air France, Airbus decided that the first production variant should be larger than the original prototype A300B1. The CF6-50A powered A300B2-100 was 2.6 m (8.5 ft) longer than the A300B1 and had an increased MTOW of 137 t (302,000 lb), allowing for 30 additional seats and bringing the typical passenger count up to 281, with capacity for 20 LD3 containers. Two prototypes were built and the variant made its maiden flight on 28 June 1973, became certified on 15 March 1974 and entered service with Air France on 23 May 1974.

A300B2-200

For the A300B2-200, originally designated as the A300B2K, Krueger flaps were introduced at the leading-edge root, the slat angles were reduced from 20 degrees to 16 degrees, and other lift related changes were made in order to introduce a high-lift system. This was done to improve performance when operating at high-altitude airports, where the air is less dense and lift generation is reduced. The variant had an increased MTOW of 142 t (313,000 lb) and was powered by CF6-50C engines, was certified on 23 June 1976, and entered service with South African Airways in November 1976. CF6-50C1 and CF6-50C2 models were also later fitted depending on customer requirements, these became certified on 22 February 1978 and 21 February 1980 respectively.

A300B2-320

The A300B2-320 introduced the Pratt & Whitney JT9D powerplant and was powered by JT9D-59A engines. It retained the 142 t (313,000 lb) MTOW of the B2-200, was certified on 4 January 1980, and entered service with Scandinavian Airlines on 18 February 1980, with only four being produced.

Variant Produced
B2-100 32
B2-200 25
B2-320 4
Source:
Production figures are listed up to 1 January 1999.

A300B4

The A300B4-100 first took flight on 26 December 1974, kept the B2 length but featured a higher fuel capacity

A300B4-100

The initial A300B4 variant, later named the A300B4-100, included a centre fuel tank for an increased fuel capacity of 47.5 tonnes (105,000 lb), and had an increased MTOW of 157.5 tonnes (347,000 lb). It also featured Krueger flaps and had a similar high-lift system to what was later fitted to the A300B2-200. The variant made its maiden flight on 26 December 1974, was certified on 26 March 1975, and entered service with Germanair in May 1975.

A300B4-200

The A300B4-200 had an increased MTOW of 165 tonnes (364,000 lb) and featured an additional optional fuel tank in the rear cargo hold, which would reduce the cargo capacity by two LD3 containers. The variant was certified on 26 April 1979.

Variant Produced
B4-100 47
B4-200 136
Source:
Production figures are listed up to 1 January 1999.
A300B4-200FFCC

It is the A300B4-200 without the flight engineer but analog flight instruments. Introduced by Garuda Indonesian Airways in 1982

A300-600

With small wingtip fences, the A300-600 entered service in June 1984 with Saudi Arabian Airlines
The A300-600 shared the EFIS two-crew cockpit with the A310 (pictured below)

The A300-600, officially designated as the A300B4-600, was slightly longer than the A300B2 and A300B4 variants and had an increased interior space from using a similar rear fuselage to the Airbus A310, this allowed it to have two additional rows of seats. It was initially powered by Pratt & Whitney JT9D-7R4H1 engines, but was later fitted with General Electric CF6-80C2 engines, with Pratt & Whitney PW4156 or PW4158 engines being introduced in 1986. Other changes include an improved wing featuring a recambered trailing edge, the incorporation of simpler single-slotted Fowler flaps, the deletion of slat fences, and the removal of the outboard ailerons after they were deemed unnecessary on the A310. The variant made its first flight on 8 July 1983, was certified on 9 March 1984, and entered service in June 1984 with Saudi Arabian Airlines. A total of 313 A300-600s (all versions) have been sold. The A300-600 uses the A310 cockpits, featuring digital technology and electronic displays, eliminating the need for a flight engineer. The FAA issues a single type rating which allows operation of both the A310 and A300-600.

  • A300-600: (Official designation: A300B4-600) The baseline model of the −600 series.
  • A300-620C: (Official designation: A300C4-620) A convertible-freighter version. Four delivered between 1984 and 1985.
  • A300-600F: (Official designation: A300F4-600) The freighter version of the baseline −600.
  • A300-600R: (Official designation: A300B4-600R) The increased-range −600, achieved by an additional trim fuel tank in the tail. First delivery in 1988 to American Airlines; all A300s built since 1989 (freighters included) are −600Rs. Japan Air System (later merged into Japan Airlines) took delivery of the last new-built passenger A300, an A300-622R, in November 2002.
  • A300-600RC: (Official designation: A300C4-600R) The convertible-freighter version of the −600R. Two were delivered in 1999.
  • A300-600RF: (Official designation: A300F4-600R) The freighter version of the −600R. All A300s delivered between November 2002 and 12 July 2007 (last ever A300 delivery) were A300-600RFs.

A300B10 (A310)

The longer-range Airbus A310, 7 m (23 ft) shorter, was introduced by Swissair in April 1983
Main article: Airbus A310

Airbus had demand for an aircraft smaller than the A300. On 7 July 1978, the A310 (initially the A300B10) was launched with orders from Swissair and Lufthansa. On 3 April 1982, the first prototype conducted its maiden flight and it received its type certification on 11 March 1983.

Keeping the same eight-abreast cross-section, the A310 is 6.95 m (22.8 ft) shorter than the initial A300 variants, and has a smaller 219 m (2,360 sq ft) wing, down from 260 m (2,800 sq ft). The A310 introduced a two-crew glass cockpit, later adopted for the A300-600 with a common type rating. It was powered by the same GE CF6-80 or Pratt & Whitney JT9D then PW4000 turbofans. It can seat 220 passengers in two classes, or 240 in all-economy, and can fly up to 5,150 nmi (9,540 km; 5,930 mi). It has overwing exits between the two main front and rear door pairs.

In April 1983, the aircraft entered revenue service with Swissair and competed with the Boeing 767–200, introduced six months before. Its longer range and ETOPS regulations allowed it to be operated on transatlantic flights. Until the last delivery in June 1998, 255 aircraft were produced, as it was succeeded by the larger Airbus A330-200. It has cargo aircraft versions, and was derived into the Airbus A310 MRTT military tanker/transport.

A300-600ST

The Airbus Beluga is based on the A300 with an oversized cargo hold on top
Main article: Airbus Beluga

Commonly referred to as the Airbus Beluga or "Airbus Super Transporter", these five airframes are used by Airbus to ferry parts between the company's disparate manufacturing facilities, thus enabling workshare distribution. They replaced the four Aero Spacelines Super Guppys previously used by Airbus.

ICAO code: A3ST

Operators

Main article: List of Airbus A300 operators

As of September 2023, there are 197 A300 family aircraft in commercial service. The five largest operators were FedEx Express (70), UPS Airlines (52), European Air Transport Leipzig (23), Iran Air (11), and Mahan Air (11).

Deliveries

See also: List of Airbus A300 operators
Total 2007 2006 2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995 1994 1993 1992 1991
Deliveries 561 6 9 9 12 8 9 11 8 8 13 6 14 17 23 22 22 25
1990 1989 1988 1987 1986 1985 1984 1983 1982 1981 1980 1979 1978 1977 1976 1975 1974
Deliveries 19 24 17 11 10 16 19 19 46 38 39 26 15 15 13 8 4

Data through end of December 2007.

Accidents and incidents

As of June 2021, the A300 has been involved in 77 occurrences including 24 hull-loss accidents causing 1133 fatalities, and 36 criminal occurrences and hijackings causing 302 fatalities.

Accidents with fatalities

American Airlines Flight 587 vertical stabilizer
Nose and forward section of UPS 1354 which crashed in August 2013
  • 21 September 1987: An Egyptair Airbus A300B4-203 touched down 700 m (2,300 ft) past the runway threshold during a training flight. The right main gear hit the runway lights and the aircraft collided with an antenna and fences. No passengers were on board the plane, but 5 crew members were killed. The aircraft was written off. This was the first fatal accident of an Airbus A300.
  • 28 September 1992: PIA Flight 268, an A300B4 crashed on approach near Kathmandu, Nepal. All 12 crew and 155 passengers died.
  • 26 April 1994: China Airlines Flight 140 crashed at the end of runway at Nagoya, Japan, killing all 15 crew and 249 of 256 passengers on board.
  • 26 September 1997: Garuda Indonesia Flight 152 was on approach to Polonia International Airport in Medan. The plane later crashed into a ravine in Buah Nabar due to ATC error and apparent haze that covers the country which limits the visibility. All 234 passengers and crew aboard were killed in Indonesia's deadliest crash.
  • 16 February 1998: China Airlines Flight 676 crashed into a residential area close to CKS International Airport near Taipei, Taiwan. All 196 people on board were killed, including Taiwan's central bank president. Six people on the ground were also killed.
  • 2 February 2000: During take-off, a Lockheed C-130 Hercules owned by the Iranian Air Force lost control and veered off the runway, striking an Airbus A300B2-203 owned by Iran Air, killing eight people.
  • 12 November 2001: American Airlines Flight 587 crashed into Belle Harbor—a neighbourhood in Queens, New York, United States—shortly after takeoff from John F. Kennedy International Airport. The vertical stabiliser ripped off the aircraft after the rudder was mishandled during wake turbulence. All 260 people on board were killed, along with 5 people on the ground. It is the second-deadliest incident involving an A300 to date and the second-deadliest aircraft incident in the United States.
  • 14 April 2010: AeroUnion Flight 302, an A300B4-203F, crashed on a road 2 km (1.2 mi) short of the runway while attempting to land at Monterrey Airport in Mexico. Seven people (five crew members and two on the ground) were killed.
  • 14 August 2013: UPS Flight 1354, an Airbus A300F4-622R, crashed outside the perimeter fence on approach to Birmingham–Shuttlesworth International Airport in Birmingham, Alabama, United States. Both crew members died.

Non-fatal hull losses

  • 18 December 1983: Malaysian Airline System Flight 684, an Airbus A300B4 leased from Scandinavian Airlines System (SAS), registration OY-KAA, crashed short of the runway at Kuala Lumpur in bad weather while attempting to land on a flight from Singapore. All 247 people aboard escaped unharmed but the aircraft was destroyed in the resulting fire.
  • 24 April 1993: an Air Inter Airbus A300B2-1C was written off after colliding with a light pole while being pushed back at Montpellier.
  • 15 November 1993, an Indian Airlines Airbus A300, registered as VT-EDV, crash landed near Hyderabad Airport. There were no deaths but the aircraft was written off.
  • 10 August 1994 – Korean Air Flight 2033 (Airbus A300) from Seoul to Jeju, the flight approached faster than usual to avoid potential windshear. Fifty feet above the runway the co-pilot, who was not flying the aircraft, decided that there was insufficient runway left to land and tried to perform a go-around against the captain's wishes. The aircraft touched down 1,773 meters beyond the runway threshold. The aircraft could not be stopped on the remaining 1,227 meters of runway and overran at a speed of 104 knots. After striking the airport wall and a guard post at 30 knots, the aircraft burst into flames and was incinerated. The cabin crew was credited with safely evacuating all passengers although only half of the aircraft's emergency exits were usable.
  • 17 October 2001: Pakistan International Airlines flight PK231, registration AP-BCJ, from Islamabad via Peshawar to Dubai veered off the side of the runway after the right hand main landing gear collapsed as it touched down. The aircraft skidded and eventually came to rest in sand 50 meters from the runway. The aircraft sustained damage to its right wing structure and its no. 2 engine, which partly broke off the wing. All 205 passengers and crew survived.
  • 1 March 2004: Pakistan International Airlines Flight 2002 burst 2 tyres whilst taking off from King Abdulaziz International Airport. Fragments of the tyre were ingested by the engines, this caused the engines to catch fire and an aborted takeoff was performed. Due to the fire substantial damage to the engine and the left wing caused the aircraft to be written off. All 261 passengers and 12 crew survived.
  • 16 November 2012: an Air Contractors Airbus A300B4-203(F) EI-EAC, operating flight QY6321 on behalf of EAT Leipzig from Leipzig (Germany) to Bratislava (Slovakia), suffered a nose wheel collapse during roll out after landing at Bratislava's M. R. Štefánik Airport. All three crew members survived unharmed, the aircraft was written off. As of December 2017, the aircraft still was parked at a remote area of the airport between runways 13 and 22.
  • 12 October 2015: An Airbus A300B4-200F Freighter operated by Egyptian Tristar cargo carrier crashed in Mogadishu, Somalia. All the passengers and crew members survived the crash.
  • 1 October 2016: An Airbus A300-B4 registration PR-STN on a cargo flight between São Paulo-Guarulhos and Recife suffered a runway excursion after landing and the aft gear collapsed upon touchdown.

Violent incidents

  • 27 June 1976: Air France Flight 139, originating in Tel Aviv, Israel and carrying 248 passengers and a crew of 12 took off from Athens, Greece, headed for Paris, France. The flight was hijacked by terrorists, and was eventually flown to Entebbe Airport in Uganda. At the airport, Israeli commandos rescued 102 of the 106 hostages.
  • 26 October 1986: Thai Airways Flight 620, an Airbus A300B4-601, originating in Bangkok suffered an explosion mid-flight. The aircraft descended rapidly and was able to land safely at Osaka. The aircraft was later repaired and there were no fatalities. The cause was a hand grenade brought onto the plane by a Japanese gangster of the Yamaguchi-gumi. 62 of the 247 people on board were injured.
  • 3 July 1988: Iran Air Flight 655 was shot down by USS Vincennes in the Persian Gulf after being mistaken for an attacking Iranian F-14 Tomcat, killing all 290 passengers and crew.
  • 15 February 1991: two Kuwait Airways A300C4-620s and two Boeing 767s that had been seized during Iraq's occupation of Kuwait were destroyed in coalition bombing of Mosul Airport.
  • 24 December 1994: Air France Flight 8969 was hijacked at Houari Boumedienne Airport in Algiers, by four terrorists who belonged to the Armed Islamic Group. The terrorists apparently intended to crash the plane over the Eiffel Tower on Boxing Day. After a failed attempt to leave Marseille following a confrontational firefight between the terrorists and the GIGN French Special Forces, the result was the death of all four terrorists. (Snipers on the terminal front's roof shot dead two of the terrorists. The other two terrorists died as a result of gunshots in the cabin after approximately 20 minutes.) Three hostages including a Vietnamese diplomat were executed in Algiers, 229 hostages survived, many of them wounded by shrapnel. The almost 15-year-old aircraft was written off.
  • 24 December 1999: Indian Airlines Flight IC 814 from Kathmandu, Nepal, to New Delhi was hijacked. After refuelling and offloading a few passengers, the flight was diverted to Kandahar, Afghanistan. A Nepalese man was murdered while the plane was in flight.
  • 22 November 2003: European Air Transport OO-DLL, operating on behalf of DHL Aviation, was hit by an SA-14 'Gremlin' missile after takeoff from Baghdad International Airport. The aeroplane lost hydraulic pressure and thus the controls. After extending the landing gear to create more drag, the crew piloted the plane using differences in engine thrust and landed the plane with minimal further damage. The plane was repaired and offered for sale, but in April 2011 it still remained parked at Baghdad Intl.
  • 25 August 2011: an A300B4-620 5A-IAY of Afriqiyah Airways and A300B4-622 5A-DLZ of Libyan Arab Airlines were both destroyed in fighting between pro- and anti-Gaddafi forces at Tripoli International Airport.

Aircraft on display

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Airbus A300B4 repainted in first A300B1 prototype colours, including original F-WUAB registration.

Fifteen A300s are currently preserved:

Specifications

Airbus A300B6
Model A300B4-200 A300-600R A300-600F
Cockpit crew Three Two
Main deck 281/309Y @ 34/31 in)
max 345
247 (46F + 201Y)/285Y @ 34 in
max 345 (3-3-3 Y)
540 m, 43 AYY ULD
9 AMJ/LD7 + 16 AYY
Lower deck 20 LD3 + bulk 22 LD3 + bulk / 158 m
Length 53.61 m (175.9 ft) 54.08 m (177.4 ft)
Height 16.72 m (54.9 ft) 16.66 m (54.7 ft)
Wing 44.84 m (147.1 ft) span, 260 m (2,800 sq ft) area 7.7 aspect ratio
Width 5.287 m (17.35 ft) cabin, 5.64 m (18.5 ft) Fuselage, usually 2-4-2Y
Pressurized volume 542 m (19,140 cu ft) 860 m (30,370 cu ft)
MTOW 165,000 kg (363,763 lb) 171,700 kg (378,534 lb) 170,500 kg (375,888 lb)
Max payload 37,495 kg (82,662 lb) 41,374 kg (91,214 lb) 48,293 kg (106,468 lb)
Fuel capacity 48,470 kg (106,858 lb) 53,505 kg (117,958 lb)
OEW 88,505 kg (195,120 lb) 88,626 kg (195,387 lb) 81,707 kg (180,133 lb)
Engines GE CF6-50C2 or
PW JT9D-59A
GE CF6-80C2 or
PW4158
Takeoff thrust 230 kN (52,000 lbf) 249–270 kN (56,000–61,000 lbf)
Takeoff (MTOW, SL, ISA) 2,300 m (7,500 ft) 2,400 m (7,900 ft)
Speed Mach 0.78 (450 kn; 833 km/h; 518 mph) at 35,000 ft (11 km)
MMO: Mach 0.82
Range 5,375 km (2,900 nmi; 3,340 mi) 7,500 km (4,050 nmi; 4,700 mi)

Aircraft model designations

Type Certificate Data Sheet
Model Certification Date Engines
A300B1 12 November 1974 GE CF6-50A
GE CF6-50C
A300B2-1A 15 March 1974 GE CF6-50A
A300B2-1C 2 October 1974 GE CF6-50C
GE CF6-50C2R
A300B2K-3C 23 June 1976 GE CF6-50C
GE CF6-50C2R
A300B2-202 22 February 1978 GE CF6-50C1
A300B2-203 21 February 1980 GE CF6-50C2
GE CF6-50C2D
A300B2-320 4 January 1980 PW JT9D-59A
A300B4-2C 26 March 1975 GE CF6-50C
GE CF6-50C2R
A300B2-102 7 December 1977 GE CF6-50C1
A300B4-103 21 March 1979 GE CF6-50C2
GE CF6-50C2D
A300B4-120 4 February 1981 PW JT9D-59A
A300B4-203 26 April 1979 GE CF6-50C2
GE CF6-50C2D
A300B4-220 8 January 1982 PW JT9D-59A
A300C4-203 18 December 1979 GE CF6-50C2
A300C4-203 6 June 1986 GE CF6-50C2
A300B4-601 17 September 1985 GE CF6-80C2A1
A300B4-603 27 January 1987 GE CF6-80C2A3
A300B4-620 9 March 1984 PW JT9D-7R4H1
A300B4-622 6 March 1989 PW4158
A300C4-620 17 May 1984 PW JT9D-7R4H1
A300B4-605R 10 March 1988 GE CF6-80C2A3
GE CF6-80C2A5
GE CF6-80C2A5F
A300B4-622R 25 November 1988 PW4158
A300C4-605R 2 July 1999 GE CF6-80C2A5
A300F4-605R 19 April 1994 GE CF6-80C2A5
GE CF6-80C2A5F
A300F4-622R 20 June 2000 PW4158

See also

Related development

Aircraft of comparable role, configuration, and era

Related lists

Notes

  1. In full cargo service and limited passenger service

References

  1. ^ "Airbus – Historical Orders and Deliveries". Airbus S.A.S. January 2008. Archived from the original (Microsoft Excel) on 21 December 2008. Retrieved 10 December 2012.
  2. ^ "Early days (1967–1969)." Archived 5 July 2011 at the Wayback Machine Airbus, Retrieved: 28 February 2016.
  3. ^ Bowen, John T. The Economic Geography of Air Transportation: Space, Time, and the Freedom of the Sky. "Business & Economics", 2010. ISBN 1-135-15657-3, pp. 49–53.
  4. "Aircraft Industry (Plowden Report)." Hansard, February 1966. vol 723, cc 890–1016.
  5. ^ U.S. International Trade Commission (October 1995). Global Competitiveness of U. S. Advanced-Technology Manufacturing Industries: Large Civil Aircraft. Investigation No. 332-332, Publication 2667. DianePublishing. ISBN 978-0-7881-2526-3. pp. 2–16.
  6. ^ Simons, Graham. The Airbus A380: A History. "Pen and Sword", 2014. ISBN 1-78303-041-0, pp. 37–40.
  7. Chorafas, Dimitris N. The Business of Europe is Politics: Business Opportunity, Economic Nationalism and the Decaying Atlantic Alliance. Gower Publishing, 2012. ISBN 1-4094-5959-4 p. 292.
  8. ^ "Airbus at thirty – Family planning." Flight International, 2 January 2001.
  9. ^ Senguttuvan, P. S. Fundamentals of Air Transport Management. "Excel Books India", 2006. ISBN 81-7446-459-X. pp. 33–34.
  10. ^ "First order, first flight (1970–1972)." Archived 1 April 2015 at the Wayback Machine Airbus, Retrieved: 28 February 2016.
  11. ^ Endres, Günter (Spring 2004). "Classic Airliner: Airbus A300". Flightpath: The International Journal of Commercial Aviation. 3. Norwalk, Connecticut: AIRtime Publishing: 43, 45, 51–52. ISBN 1-880588-73-0.
  12. ^ Pitt, Ivan L. and John Randolph Norsworthy. Economics of the U.S. Commercial Airline Industry: Productivity, Technology and Deregulation. "Springer", 2012. ISBN 1-4615-5031-9, pp. 57, 60.
  13. "Aero Engines 1968: "Flight" special review". Flight International. 93 (3069): 19–30. 4 January 1968.
  14. ^ "Airbus A300 report". Forecast international. April 2008.
  15. ^ "Trouble and strife (1968–1969)." Airbus, Retrieved: 28 February 2016.
  16. ^ Norris, Guy and Mark Wagner (1999). Airbus. Osceola, Wisconsin: MBI Publishing. pp. 16–25. ISBN 0-7603-0677-X.
  17. "Airliner price index". Flight International. 10 August 1972. p. 183.
  18. ^ "Champagne ... and drought (1973–1977)." Archived 1 April 2015 at the Wayback Machine Airbus, Retrieved: 28 February 2016.
  19. ^ "Technology leaders (1977–1979)." Archived 25 September 2015 at the Wayback Machine Airbus, Retrieved: 3 March 2016.
  20. ^ "A300: the aircraft that launched Airbus." Archived 4 March 2016 at the Wayback Machine Airbus, Retrieved: 3 March 2016.
  21. Tischler, Mark. B. Advances in Aircraft Flight Control. "CRC Press", 1996. ISBN 0-7484-0479-1, p. 219.
  22. Park, Soo-Jin. Carbon Fibers. "Springer", 2014. ISBN 94-017-9478-2, p. 257.
  23. Airbus The European Triumph, Bill Gunston 1988, ISBN 085045820X, p. 113
  24. https://www.yesterdaysairlines.com/airline-history-blog/eastern-a300s-a-marriage-made-in-heaven
  25. "Technology leaders (1977–1979)". Aircraft History. Airbus. 17 June 2021.
  26. "Airbus cockpit/control milestones". FlightGlobal. 11 January 1995. Retrieved 25 April 2023.
  27. Lewis, Paul (31 May 1981). "For Europe's Airbus Industrie It's Decision Time". The New York Times. ISSN 0362-4331. Retrieved 8 November 2020.
  28. Hashim, Firdaus. "China Eastern retires A300-600s." Flight International, 6 June 2014.
  29. Beysens, Daniel A. and Jack J.W. A. van Loon. Generation and Applications of Extra-Terrestrial Environments on Earth. "River Publishers", 2015. ISBN 87-93237-53-7. pp. 63–65.
  30. "Experience weightlessness on board the 'Zero-G' Airbus." European Space Agency, Retrieved: 3 March 2016.
  31. "Airbus A300 Available For Cargo Charter". Air Charter Guru. 22 December 2016. Retrieved 20 October 2021.
  32. "A300/A310 Final Assembly to be completed by July 2007". Airbus. 7 March 2006. Archived from the original on 7 October 2008.
  33. "The last A300 makes its maiden flight". Airbus. 18 April 2007. Archived from the original on 13 May 2007.
  34. Kaminski-Morrow, David. "Airbus delivers last A300." Flight International, 12 July 2007.
  35. "Airbus aims to fill freighter void with A330 derivative". Flight International. 14 March 2006.
  36. Alan Dron (16 May 2017). "UPS to upgrade Airbus A300 cockpits". Air Transport World. Aviation Week Network. Archived from the original on 17 May 2017. Retrieved 17 May 2017.
  37. "WorldCensus2017.pdf". Flightglobal.com. Retrieved 28 June 2018.
  38. ^ Endres, Günter (1999). Airbus A300. MBI Pub. pp. 17–110. ISBN 978-0-7603-0827-1.
  39. ^ "Type certificate data sheet A.172 for Airbus A300, A310 and A300-600". EASA. 8 April 2022.
  40. Simpson, Rod (1999). Airlife's Commercial Aircraft and Airliners. Airlife. p. 28. ISBN 978-1-84037-073-7.
  41. ^ Gunston, Bill (2010). Airbus: The Complete Story. Haynes Publishing UK. pp. 38–74. ISBN 978-1-84425-585-6.
  42. "Hot and High Operations". SKYbrary Aviation Safety. 25 May 2021. Retrieved 10 April 2022.
  43. Sweetman, Bill (4 September 1975). "Airbus Industrie spreads its wings". Flight International. Vol. 108, no. 3469. p. 326.
  44. "Commercial Aircraft of the World". Flight International. Retrieved 29 December 2015.
  45. "Orders & Deliveries". Airbus. 31 March 2023. Archived from the original on 10 February 2019. Retrieved 12 April 2023.
  46. "Airbus A300 Statistics". Aviation Safety Network. Retrieved 25 June 2021.
  47. "Accident description". Aviation Safety Network. 21 September 1987. Retrieved 10 December 2013.
  48. "The Airbus A300". CBC News. 12 November 2001.
  49. "Other Airbus A300B2-203 EP-IBR, Wednesday 2 February 2000". asn.flightsafety.org. Retrieved 15 August 2024.
  50. "Loss of control Accident Lockheed C-130 Hercules, Wednesday 2 February 2000". asn.flightsafety.org. Retrieved 15 August 2024.
  51. Harro Ranter (13 April 2010). "ASN Aircraft accident Airbus A300B4-203F XA-TUE Monterrey-General Mariano Escobedo International Airport (MTY)". aviation-safety.net. Retrieved 1 April 2015.
  52. "Board Meeting: UPS Flight 1354". National Transportation Safety Board. 9 September 2014.
  53. "Flight MH684 crash", AirDisasters, 18 December 1983, archived from the original on 28 April 2013, retrieved 8 March 2013
  54. "Airbus A300B2-1C F-BUAE Montpellier-Frejorgues Airport (MPL)". Aviation Safety Network. Retrieved 25 March 2014.
  55. "Accident Airbus A300B2-101 VT-EDV, Monday 15 November 1993". asn.flightsafety.org. Retrieved 12 August 2024.
  56. "Aviation Safety Network Report PIA Flight PK231". Aviation-Safety-Network. 17 October 2001. Retrieved 18 February 2024.
  57. "PIA Flight 2002 accident". Aviation-safety.net. Retrieved 16 March 2010.
  58. SME – Petit Press, a.s. "V Bratislave havarovalo nákladné lietadlo, zlyhal mu podvozok – Bratislava – bratislava.sme.sk". sme.sk. Retrieved 1 April 2015.
  59. "Tristar A300 cargo plane crashed in Mogadishu – Aviation Analysis Wing". aviationanalysis.net.
  60. "Thai Airways International Flight 620".
  61. Snyder, Janet (29 October 1986). "Police check gangster grenade blast theory". UPI. Retrieved 8 July 2017.
  62. "Gangster's grenade causes jet scare". The Japan Times. 30 October 1986. Retrieved 8 July 2017.
  63. "Police say grenade caused Airbus blast". China Daily. 31 October 1986. Retrieved 8 July 2017.
  64. Haberman, Clyde (4 November 1986). "Thai Plane Incident Prompts a New Look at Japan Gangs". The New York Times. Retrieved 8 July 2017.
  65. "Yakuza Branches Out". Associated Press. 2 November 1986. Archived from the original on 28 October 2021. Retrieved 8 July 2017.
  66. "Navy Missile Downs Iranian Jetliner". The Washington Post. 4 July 1988. Retrieved 3 August 2006.
  67. "Airbus A300C4-620 9K-AHG Mosul Airport (MOS)". Aviation Safety Network. Retrieved 25 March 2014.
  68. "Why didn't the hijack drama end in Dubai". 20 July 2012.
  69. Harro Ranter (22 November 2003). "ASN Aircraft accident Airbus A300B4-203F OO-DLL Baghdad International Airport (SDA)". aviation-safety.net. Retrieved 1 April 2015.
  70. "5A-IAY Hull-loss description". Aviation Safety Network. Retrieved 27 August 2011.
  71. "5A-DLZ Criminal occurrence description". Aviation Safety Network. Retrieved 27 August 2011.
  72. "Musée Aeroscopia". aeroscopia-blagnac.fr. Archived from the original on 24 December 2014. Retrieved 1 April 2015.
  73. "A300 Airplane Characteristics for Airport Planning" (PDF). Airbus. 1 December 2009. Archived (PDF) from the original on 9 October 2022.
  74. "A300-600 Airplane Characteristics for Airport Planning" (PDF). Airbus. 1 December 2009. Archived (PDF) from the original on 9 October 2022.
  75. "A300F4-600 Airplane Characteristics for Airport Planning" (PDF). Airbus. 1 December 2009. Archived (PDF) from the original on 9 October 2022.
  76. "Airbus Aircraft Data File". Civil Jet Aircraft Design. Elsevier. July 1999.
  77. ^ "A300-600 / Dimensions & key data". Airbus. 16 June 2021.
  78. "Type Certificate Data Sheet" (PDF). EASA. 21 September 2017. Archived from the original (PDF) on 29 November 2018.

Further reading

  • Chillon, Jacques; Dubois, Jean-Pierre & Wegg, John (1980). French Post-War Transport Aircraft. Tonbridge, UK: Air-Britain. ISBN 0-85130-078-2.
  • Gunston, Bill (2009). Airbus: The Complete Story. Sparkford, Yeovil, Somerset, UK: Haynes Publishing. ISBN 978-1-84425-585-6.
  • Hofton, Andy (10 October 1987). "Commercial Aircraft of the World". Flight International. Vol. 132, no. 4083. pp. 36–79.

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