Armstrong Siddeley Sapphire Explained

The Armstrong Siddeley Sapphire is a British turbojet engine that was produced by Armstrong Siddeley in the 1950s. It was the ultimate development of work that had started as the Metrovick F.2 in 1940, evolving into an advanced axial flow design with an annular combustion chamber that developed over 11000lbf. It powered early versions of the Hawker Hunter and Handley Page Victor, and every Gloster Javelin. Production was also started under licence in the United States by Wright Aeronautical as the J65, powering a number of US designs. The Sapphire's primary competitor was the Rolls-Royce Avon.

Design and development

Design evolution of the Sapphire started at Metropolitan-Vickers (Metrovick) in 1943 as an offshoot of the F.2 project. With the F.2 reaching flight quality at about 1600lbf, Metrovick turned to producing larger designs, both an enlarged F.2 known as the Beryl, as well as the much larger F.9 Sapphire. (The names were chosen after a decision to use gemstones for future engine names). The Beryl eventually developed 4,000 lbf (18 kN) thrust, but the only project to select it, the Saunders-Roe SR.A/1, was cancelled. The Ministry of Supply (MoS) designated the F.9 as the MVSa.1.

In 1948[1] Metrovick exited the jet engine industry.[2] [3] Armstrong Siddeley, who already had a turbine development of their own, the ASX, took over the MVSa.1, now renamed ASSa.1.

After a redesign it emerged as the ASSa.2. In December 1949 the ASSa.2 completed an acceptance test at 7380lbf. Its competitor, the Avon RA.3 had a design thrust of 6500lbf at that time.[4] A number of companies expressed interest in the Sapphire, and it was considered as either the main or backup powerplant for most British designs of the late '40s and early '50s.

The ASSa.5 with 7500lbf thrust was used only on the English Electric P.1A, prototype for the Lightning. A simple fixed-nozzle reheat was fitted to extend the performance boundary for stability and control testing from about Mach 1.1 to beyond Mach 1.5.[5] Future versions of the Lightning were powered by the Avon.

The ASSa.6, 8300lbf, was used on the Gloster Javelin FAW Mk.1, Hawker Hunter F.Mk.2 and F.Mk.5, and the prototype Sud Ouest SO 4050 Vautour. The higher thrust ASSa.7 at 11000lbf was the first British engine to be rated above 10000lbf and it powered the Gloster Javelin FAW Mk.7, Handley Page Victor B.Mk.1 and a prototype Swiss fighter-bomber, the FFA P-16.

The Sapphire compressor operated well, free from surging,[6] over its complete RPM range without the need for variable inlet guide vanes (VIGV) or bleed. However, early compressor stages suffered from fatigue due to rotating stall at low RPM and various fixes, such as lacing wire, were incorporated. Curtiss-Wright introduced variable ramps on the Wright J65 at the entry to the compressor[7] to prevent the stalling and blade excitation. Armstrong-Siddeley tested a similar solution on the Sapphire but incorporated blade changes instead to reduce the blade response to the stalling.[8]

Caygill[9] states that one of the most serious problems encountered throughout the life of the Gloster Javelin was caused by "centre-line closure" on the Sapphire engine. Flying through thick cloud could cause the compressor case to shrink and rub the blades causing catastrophic engine failures and loss of the aircraft. "Centre-line closure" also caused a Sapphire failure on a Victor B.1.[10]

An afterburner with limited boost was required for the Javelin's ASSa.7, making it the ASSa.7LR. 12% boost was required at high altitudes to regain the bomber intercept performance that had been lost carrying the new de Havilland Firestreak missiles.[9] Afterburners with a low boost requirement were sometimes known as "wee-heat".[9] Other low-boost reheats have included the "tailpipe augmentation"(TPA) on the F-86H (J73) with +10% at take-off[11] and "Bristol Simplified Reheat"(BSR), with about 16% boost at take-off, tested on Derwent V, Orenda, Olympus[12] and Orpheus engines.[13]

Variants

MVSa.1: Ministry of Supply designation of the original Metropolitan-Vickers F.9 Sapphire, derived from the Metropolitan-Vickers F.2/4 Beryl. Design work on this much larger engine started in 1943.
  • ASSa.3: Completed a 150-hour Service Type Test in November 1951 at a sea level rating of 7500abbr=onNaNabbr=on at an s.f.c. of 0.91
  • ASSa.4:[14]
  • ASSa.5: Early Armstrong Siddeley developed Sapphire engines.[14]
  • ASSa.5R: Reheated engines fitted to the English Electric P.1A.
  • ASSa.6:Later engines developed for the Gloster Javelin FAW Mk.1, Hawker Hunter F.Mk.2, F.Mk.5 and the prototype Sud Ouest SO 4050 Vautour
  • ASSa.7: Rated at 11000lbf, powering the Gloster Javelin FAW Mk.7, Handley Page Victor B.Mk.1 and the prototype FFA P-16.
  • ASSa.7LR: Engines with a 12% augmentation reheat system for use above 20000feet, powering the Gloster Javelin FAW Mk.8.
  • Wright J65
  • Licence production in the United States by Wright Aeronautical
    ASSa.8:
  • ASSa.9:[14]
  • ASSa.12:
  • Sapphire 101: (ASSa.6)
  • Sapphire 104: (ASSa.12)
  • Sapphire 202: (ASSa.7)

    • Uses

    Engines on display

    An Armstrong Siddeley Sapphire is on static display at the Midland Air Museum, Coventry Airport, Warwickshire.

    Very few Armstrong Siddeley Sapphire engines exist, other known examples are preserved at the Jet Age Museum in Gloucester, England, and the Malta Aviation Museum at Ta' Qali.

    References

    Bibliography

    External links

    Notes and References

    1. Web site: armstrong siddeley gloster javelin 1956 0017 Flight Archive . www.flightglobal.com . dead . https://web.archive.org/web/20111119064414/http://www.flightglobal.com/pdfarchive/view/1956/1956%20-%200017.html . 2011-11-19.
    2. Depending on the sources, Metrovick either left the engine business on their own to concentrate on steam turbines, or were forced from the market by the Ministry of Supply in order to reduce the number of companies they had to deal with.
    3. Gunston 1989, p.102. Note: "...the firm had decided in 1947, under Ministry pressure, to get out of aviation"
    4. Web site: electric company english electric 1955 1780 Flight Archive . www.flightglobal.com . dead . https://web.archive.org/web/20160425115057/https://www.flightglobal.com/pdfarchive/view/1955/1955%20-%201780.html . 2016-04-25.
    5. "Testing Years" Roland Beamont, Ian Allan Ltd. Londondon,, p.93
    6. Web site: armstrong siddeley 1956 0018 Flight Archive. dead . https://web.archive.org/web/20130522060649/http://www.flightglobal.com/pdfarchive/view/1956/1956%20-%200018.html . 22 May 2013 .
    7. Web site: armstrong siddeley 1956 0022 Flight Archive. dead . https://web.archive.org/web/20150424151652/http://www.flightglobal.com/pdfarchive/view/1956/1956%20-%200022.html . 24 April 2015 .
    8. Web site: 1956 1599 Flight Archive. dead . https://web.archive.org/web/20160426015350/https://www.flightglobal.com/pdfarchive/view/1956/1956%20-%201599.html . 26 April 2016 .
    9. Javelin From The Cockpit, Peter Caygill, Pen & Sword Books Ltd.,
    10. The Handley Page Victor Volume 1, Roger R Brooks, Pen & Sword Aviation 2007,, p.195
    11. "seven decades of progress" General Electric, Aero Publishers Inc. 1979, Fallbrook,, p. 83
    12. "Olympus-the first forty years" Alan Baxter, Rolls-Royce Heritage Trust, 1990,, p.26
    13. Web site: 1959 2122 Flight Archive. dead . https://web.archive.org/web/20111119073150/http://www.flightglobal.com/pdfarchive/view/1959/1959%20-%202122.html . 19 November 2011 .
    14. Book: Taylor, John W.R. FRHistS. ARAeS. Jane's All the World's Aircraft 1955-56. 1955. Sampson, Low, Marston & Co Ltd. London.

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