Age, Biography and Wiki

Bill Strang (engineer) was born on 29 June, 1921. Discover Bill Strang (engineer)'s Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is He in this year and how He spends money? Also learn how He earned most of networth at the age of 78 years old?

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Age 78 years old
Zodiac Sign Cancer
Born 29 June, 1921
Birthday 29 June
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Date of death 14 September 1999
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Bill Strang (engineer) Height, Weight & Measurements

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Bill Strang (engineer) Net Worth

His net worth has been growing significantly in 2022-2023. So, how much is Bill Strang (engineer) worth at the age of 78 years old? Bill Strang (engineer)’s income source is mostly from being a successful . He is from . We have estimated Bill Strang (engineer)'s net worth , money, salary, income, and assets.

Net Worth in 2023 $1 Million - $5 Million
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Timeline

1983

In 1983, the Civil Airworthiness Authority appointed him as Chairman of the ARB (Airworthiness Requirements Board), for which he was ideally suited and which they had held open for him for a year (until his retirement). He had been a founder member since 1972 and remained their Chairman until 1990.

1978

In 1978, Strang was appointed Deputy Technical Director of the whole of the Aircraft Group, military and civil, of the recently formed British Aerospace, encompassing all significant British fixed-wing aircraft.

1975

Given that they were more than doubling the cruising speed of civil aircraft in one step, the Concorde partners continued to make good progress so that, by the end of 1975, Concorde had received both British and French Certificates of Airworthiness and deliveries to airlines had started. The aircraft continued to achieve many notable flights, mostly halving transoceanic flight times, By January 1976 passenger-carrying services were operating.

1973

In recognition of his work on Concorde, Strang was awarded the C.B.E. in 1973 and was elected a Fellow of the Royal Society in 1977, an honor that he greatly valued.

1971

In 1971, although the US Congress cancelled the country's supersonic program, four more Concordes plus long-dated materials for a further six were ordered. This faith could be justified because the hundredth flight at M=2 was logged, airline pilots flying some, and 001 made an intercontinental flight to Dakar and completed a tour of South America. In December, Concorde 01, ordered at the end of 1969, made its first flight from Filton to Fairford, a very good achievement by Bill Strang and his colleagues.

1970

By November 1970, both prototypes had flown satisfactorily at M=2 and demonstrated that a major design objective had been achieved, but much development remained to be done because the prototypes required intermediate stops to achieve the normal transatlantic sectors with adequate fuel reserves. At the end of the year, Dr Russell, the original inspiration behind the project (and the one who had persuaded Bill Strang to return from his research in Australia) retired.

1969

In spite of all the technical challenges and international debate and after extensive ground testing, the first prototype Concorde, 001, flew on 2 March 1969 at Toulouse and the second, 002, flew on 9 April 1969 from Filton.

In June 1969 both prototypes made their first public appearance at the Paris air show. Later that year, M=1 was reached; the first airline pilots flew it, and government authority was given for three more aircraft.

1964

By 1964, after discussions with the airlines, although the French team had been allocated the lead on airframe design, Strang and his British colleagues had persuaded them to drop the short-range version and to adopt the longer-range and heavier transatlantic version, which required a 20% increase in wing area. By April 1965 metal was being cut for the prototypes.

1962

To explore this possibility, the Filton team was given partial funding for what amounted to a feasibility study for an aircraft to carry 130 passengers for 3,000 miles (4,800 km) at Mach 2.2, possibly in collaboration with France and/or the United States of America (USA). Filton already had a contract for an all-steel supersonic research aircraft, the Type 188, which first flew in April 1962, and this experience convinced the team that a civil supersonic transport should be limited to a speed consistent with the use of aluminum alloys. Strang's earlier research into supersonic flow in Australia was ideal preparation for this work, and constituted invaluable expertise and management experience for the new tasks on Concorde.

In October 1962, in a small office in Paris, a final move was made in the protracted negotiations. The project was in danger of getting stuck, and there were important matters that still needed to be resolved. The impasse needed to be overcome, and the solution required the consolidation of a special relationship as well as technical expertise. Bill Strang and Lucien Servanty closeted themselves away for a whole day, with a single draughtsman and drawing board, and with an understanding that they would not emerge until they had reached agreement (and an agreed drawing) of the general arrangement for the long-range and medium-range aircraft. They succeeded, although it would be hard to imagine two men more unlike in temperament, background and personality - Lucien Servanty, a forceful and fiery character, who did not suffer fools gladly, and Bill Strang, an equable, quiet-spoken man, who led rather than drove his team. They were, one might have thought, a fairly unlikely pair to work together as collaborators on the most difficult technological project ever tackled in Europe. Yet this partnership, like many others in the Concorde organisation, and grew and flourished on the firm basis of mutual respect for the other's intellect and integrity.

By November 1962, a detailed Anglo-French Governmental Agreement for the development and production of a civil supersonic transport aircraft was signed in London; and there was a supporting agreement between BAC and Sud Aviation. Because Britain, with a French deputy, was to take the lead on the engines-the Bristol Siddeley Olympus-France was to take the lead on the airframe with a British deputy. Thus Servanty was appointed Director of Engineering and Strang his deputy. They worked with a team of six – three British (Mick Wilde, Doug Thorne and Doug Vickery) and three French (Gilbert Cormery, Etienne Fage and Jean Resch).

1961

By the end of 1961, French and British governments were ready to direct BAC and Sud Aviation to formulate a joint project. These studies concluded in January 1962 that it was possible to have two aircraft designs with a great degree of commonality in research and development tests, structural components, jigs and tools, and engines. Two general arrangement drawings were submitted, both signed by Strang and his French counterpart, Servanty.

1960

In 1960, Strang was appointed a director and Chief Engineer (Filton Division) of the Bristol Aeroplane Co. Ltd. In the same year, Strang, together with (Sir) Archibald Russell and Mick Wilde, became involved in discussions with representatives from Sud Aviation, the French aerospace company based in Toulouse, France. The French had been studying a smaller aircraft carrying 60–70 passengers over a range of 1,900 nautical miles (3,500 km), whereas the British team envisaged a much longer transatlantic-range aircraft carrying 130 passengers, so there were substantial differences. Nevertheless, collaboration continued with Bill Strang playing a significant role.

1956

Strang's talents as Chief Designer were quickly recognized. In 1956, he became involved with other projects, including the Bristol 192 Belvedere bomber. In 1956, when the STAC (Supersonic Transport Aircraft Committee) was formed, Strang was a significant force in forming a final conclusion of the feasibility to build a supersonic transport of slender delta-wing platform with aerodynamics based on the separated flow principle developed by Dietrich Kuchemann and others at the Royal Aircraft Establishment during 1950–54.

1955

Soon after return to the UK, Strang was placed in charge of the Aerodynamics and Flight Research and Development Departments. In 1955, he was appointed Chief Designer, Britannia, which, for its time, was a large aircraft intended for transatlantic service. Only a limited number of Britannias were built but they proved to be very durable. The Britannia was notable for the first civil use of pure servo-tabs for control surface actuation.

1951

Strang might well have stayed at the ARL: however, Dr. Archibald Russell went to Australia in 1951 and persuaded Strang that his destiny lay in design rather than research and that he and his family should return to the United Kingdom (UK), so that he could join Russell's team of bright young men at Filton. This was a move that was to prove of great significance not only for the Filton team but also for Concorde.

1948

In 1948, Strang and his wife Margaret moved to Melbourne, Australia to work at the Aircraft Research Laboratory (ARL). He quickly developed his enduring interest in supersonic flight and published several papers on supersonic flow in Proceedings of The Royal Society and in Aeronautical Laboratory reports. Significantly, one of these, ARL Report A.69, was on the gust loading of delta-winged supersonic aircraft.

1939

During his early years (1939–46) at the Bristol Aeroplane Company, Strang worked in the Aerodynamics Department and then the Stress and Project Offices on the Beaufort, Beaufighter, Buckingham and Brabazon aircraft and on Bristol gun turrets. He made substantial aerodynamic and structural contributions to the design of the Brabazon.

1921

William John Strang, CBE, FRS, FREng, FRAeS (29 June 1921 – 14 September 1999) was a British aerospace engineer. He worked all of his professional career in the aerospace industry, mostly at Filton, Bristol, and was Technical Director (Commercial Aircraft) of British Aerospace until he retired in 1983. From 1983 until 1990 he was Chairman of the Civil Aviation Airworthiness Requirements Board. He was appointed a CBE in 1973; and in 1997 he was elected a Fellow of the Royal Academy of Engineering. Strang was a major influence on the innovation and the aerodynamic design of Concorde and in 1977 was appointed a Fellow of the Royal Society.

Strang was born in Torquay on 29 June 1921. He was educated at Torquay Grammar School (where he was head boy) and gained a county scholarship in 1939. However, he left school and joined the Bristol Aeroplane Company at Filton, Bristol. During the war years he remained at Filton working in the aircraft industry until 1946 when he took up his scholarship at King's College London and obtained a first-class honours degree in mathematics and later a PhD.