Engineering:Standard SC engine

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Standard SC engine
Triumph Spitfire 4 MK2 engine bay right 1.jpeg
Overview
Manufacturer
Also called
  • Triumph OHV
  • Triumph 1300
  • Triumph 1500
Production1953 (1953)-1980 (1980)
Layout
ConfigurationI4
Displacement
  • 803 cc (49.0 cu in)
  • 948 cc (57.9 cu in)
  • 1,147 cc (70.0 cu in)
  • 1,296 cc (79.1 cu in)
  • 1,493 cc (91.1 cu in)
Block materialIron
Head materialIron
ValvetrainOHV
Combustion
Fuel systemCarburettor
Fuel typePetrol
Oil systemWet sump
Cooling systemWater-cooled
Output
Power output27 - 75 bhp
Chronology
PredecessorStandard 8 hp Sidevalve

The Standard SC engine is a cast-iron overhead valve straight-four engine designed and initially produced by Standard Triumph. Over its production life displacement grew from an initial size of just over 800 cc to nearly 1500 cc. Introduced in the Standard Eight in 1953, it would eventually be used in a wide range of vehicles from Standard, Triumph, and MG.[which?]

Origin

In 1948 a "single model" policy was instituted at Standard, centred on the Standard Vanguard.[1] Standard Triumph chairman John Black nevertheless wanted to add a new model below the existing Vanguard in the company's lineup, and so work had started in 1950/1951 on a new car and engine to power it, both of which were named "SC" for "small car".[2] The car would face competition in the marketplace from the recently introduced Ford Anglia, Austin A30, and Morris Minor. Consideration was given to using the existing Vanguard engine, but this linered engine was considered too expensive for the intended market. The engine designed for the new small car would use the tooling installed to produce the engine for the Triumph Mayflower, and so would have to have the same bore centres as that earlier design.[3] Austin's new A-series engine and the original Standard SC shared the same bore and stroke and displacement, leading some to wonder if Standard engineers had copied the Austin design for their own. Other significant differences between the engines, including the number and placement of intake and exhaust ports and the ability of the SC to be expanded to nearly 1.5 L, make this unlikely.

However Reliant in 1959 would begin work on a new overhead-valve (OHV) engine design to replace its aging pre-war Austin Seven sidevalve based engine, which was derived from a Chinese copy of the cast-iron Standard Eight engine after it ceased production in 1959. It would go on to become the all-alloy OHV introduced in the 1962 Reliant Regal as well as the 1964 Reliant Rebel and laid claim to being Britain’s first mass produced all-aluminium engine.[4] [5]


Model history

800

Standard Eight, the first car to use the Standard SC Inline 4

The new engine first appeared in the Standard Eight in 1953. With a displacement of 803 cc (49.0 cu in) the engine produced 26 bhp (19.4 kW) at 4500 rpm. By 1957 power had increased to 30 bhp (22.4 kW) at 5000 rpm.

950

In 1954 the Standard Ten was introduced as a more well-appointed version of the Standard Eight, while sharing the earlier car's frame and transmission. The engine for the Ten was enlarged to 948 cc (57.9 cu in) and developed 33 bhp (24.6 kW). By the time the Standard Pennant, a revised Ten with tail-fins and optional two-tone paint schemes, was launched in October 1957, output of the 948 cc engine had increased to 37 bhp (27.6 kW).

The first engine offered in the Triumph Herald was also the 948 cc SC. Power was claimed to be 34.5 bhp (25.7 kW).[6]

1150

Standard-Triumph was taken over by Leyland Motors in 1961, which made available new resources to develop the Herald. The car was re-launched in April 1961 with an 1,147 cc (70.0 cu in) engine as the Herald 1200. To gain the extra displacement the cylinders were placed out of centre which cleared the studs so that a bigger bore could be used.[7] Twin carburettors were no longer standard fitment to any of the range, although they remained an option. The standard was a single down-draught Solex carburettor. Claimed maximum power of the Herald 1200 was 39 bhp (29.1 kW).[6] An upmarket version, the Herald 12/50, was offered from 1963 to 1967 and featured a tuned engine with a claimed output of 51 bhp (38.0 kW).[8]

The 1147 cc version of the engine was also used in the first model of the Triumph Spitfire. Mildly tuned and fed by twin SU carburettors, in UK tune the in-line four produced 63 bhp (47.0 kW) at 5,750 rpm, and 67 lb⋅ft (90.8 N⋅m) of torque at 3,500 rpm.[9]

A special light-alloy 8-port racing cylinder head used on the later Le Mans and Macau Spitfires' 1147 cc engines was labelled "70X".[10] A version of this head for the later 1296 cc engine was labelled "79X", the numbers representing the displacement of the engines in cubic inches.

1300

In 1965 the engine was enlarged from 1147 cc to 1,296 cc (79.1 cu in), with the increase coming from a change in bore from 69.3 mm (2.73 in) to 73.7 mm (2.90 in) while stroke remained at 76 mm (3.0 in). This version was fitted to the new Triumph Herald 13/60 and Triumph 1300 saloons. When it debuted in the Triumph 1300 with a single Stromberg CD150 carburettor it developed 61 hp (45.5 kW). In the 1967 Mk3 Spitfire the engine in SU twin-carburettor form put out a claimed 75 bhp (55.9 kW) at 6,000 rpm, and 75 lb⋅ft (101.7 N⋅m) of torque at 4,000 rpm.

With the 1970 introduction of the MK4 Spitfire the UK version, with a 9:1 compression ratio and twin SU HS2 carburettors, that had previously been rated at 75 hp was now rated at 63 hp (47.0 kW) due to the adoption of the German DIN rating system; the actual output was the same for the early Mark IV. The less powerful North American version still used a single Zenith Stromberg carburettor and an 8.5:1 compression ratio. Displacement remained at 1296 cc, but in 1973 larger big-end bearings were fitted to rationalize production with the TR6 2.5 L engines, which somewhat dampened its previously high-revving nature. Some detuning was also done to meet new emissions laws.

1500

Another change to the SC inline 4 came in 1970 when its stroke was increased from 76 mm (3.0 in) to 87.5 mm (3.44 in), increasing displacement to 1,493 cc (91.1 cu in). Debuting in the front-wheel drive Triumph 1500 with a single SU carburettor, power output was 61 bhp (45.5 kW). Later used in the Triumph Spitfire 1500, this final incarnation of the engine was rather rough and more prone to failure than the earlier models, although torque was greatly increased.[9] While most export-market Spitfire 1500s had a compression ratio reduced to 8.0:1, the American market model was fitted with a single Zenith-Stromberg carburettor and a compression ratio reduced to 7.5:1 to allow it to run on lower octane unleaded fuel. After adding a catalytic converter and exhaust gas recirculating system, the US market engine only delivered 53 bhp (39.5 kW). The notable exception to this was the 1976 model year, when the compression ratio was raised to 9.1:1. This improvement was short-lived, however, as the ratio was again reduced to 7.5:1 for the remaining years of production.

The UK received the most powerful variant of all. Aided by a 9:1 compression ratio, less restrictive emissions control equipment, and two Type HS4 SU carburettors in place of the smaller Type HS2s, the Spitfire 1500 engine produced 71 hp (52.9 kW) at 5,500 rpm, and 82 lb⋅ft (111.2 N⋅m) of torque at 3,000 rpm.

The 1500 engine was also used in the MG Midget 1500 (1974–80) coupled to a modified Morris Marina gearbox.

Design

Design of the engine was headed by David Eley, a long-time Standard employee.[3] The engine had a cast-iron block and cylinder head, and a pressed-steel sump. Spark-plugs and camshaft were on the left side of the engine, while the inlet and exhaust manifolds were on the right. The camshaft, which drove the distributor and oil pump through a spur gear, was itself chain-driven off the nose of the crankshaft, with the drive covered by a pressed-steel cover. The cylinder head had four inlet and four outlet ports, in contrast to some of its competitors who had some ports siamesed. The crankshaft was carried in three main bearings. Crankshaft and connecting rods were steel, while the pistons were light alloy. The ancillaries were mounted on the left side of the engine, while the water pump and thermostat were in a separate casting attached to the front of the engine.

Factory Quoted Power Chart
Model Quoted power @ rpm Quoted torque @ rpm Capacity Fueling System Year
Standard Eight 26 bhp @ 4,500 rpm 803 cc 1953
Standard Ten 948 cc 1954
Standard Eight 30 bhp @ 5,000 rpm 803 cc 1957
Standard Pennant 37 bhp 948 cc 1957
Triumph Herald 34.5 bhp 948 cc 1959
Triumph Herald S 34.5 bhp 948 cc 1961
Triumph Herald 1200 39 bhp 1147 cc Single down-draught Solex carburettor 1961
Triumph Spitfire 4 63 bhp @ 5,750 rpm 67 lb⋅ft @ 3,500 rpm 1147 cc Twin SU carburettors 1962
Triumph Herald 12/50 51 bhp 1147 cc 1963
Bond Equipe GT 63 bhp 1147 cc 1963
Bond Equipe GT4S 67 bhp 1147 cc 1964
Triumph 1300 61 bhp 1296 cc Single Stromberg CD150 carburettor 1965
Triumph Spitfire Mark II 67 bhp @ 6,000 rpm 1147 cc 1965
Triumph Herald 13/60 61 bhp 1296 cc Single Stromberg CD150 carburettor 1967
Bond Equipe GT4S 1300 75 bhp 1296 cc 1967
Spitfire Mark III 75 bhp @ 6,000 rpm 75 lb⋅ft @ 4,000 rpm 1296 cc Twin SU carburettors 1967
Triumph 1300TC 75 bhp 1296 cc Twin SU carburettors 1968
Triumph 1500 61 bhp 1493 cc 1970
Triumph Toledo 58 bhp 1296 cc 1970
Triumph Spitfire Mark IV (UK) 63 bhp (DIN) 1296 cc Twin SU HS2 carburettor 1970
Triumph Spitfire Mark IV (US) 1296 cc Single Zenith Stromberg carburettor 1970
Triumph Toledo special export 61 bhp 1493 cc 1971
Triumph Toledo special export TC 64 bhp 1493 cc 1971
Triumph 1500TC 1493 cc Twin SU carburettors 1973
Triumph Spitfire 1500 (UK) 71 bhp (DIN) 1493 cc Twin SU HS4 carburettors 1974
Triumph Spitfire 1500 (US) 53 bhp 1493 cc Single Zenith-Stromberg carburettor 1974
MG Midget 1500 (UK) 64 bhp 1493 cc 1974
MG Midget 1500 (US) 50 bhp @ 5,000 RPM 67 lb⋅ft @ 2,500 RPM 1493 cc Single Zenith-Stromberg 150 CD4T[11] 1974
Triumph Dolomite 1300 1296 cc 1976
Triumph Dolomite 1500 1493 cc Twin SU carburettors 1976
Triumph Dolomite 1500HL 1493 cc Twin SU carburettors 1976

Inline 6

An inline six cylinder engine was developed from the SC four.[12] The Standard Triumph Six first appeared in 1960 in the Standard Vanguard Six. It had a 74.6 mm (2.9 in) bore and a 76 mm (3.0 in) stroke, giving a capacity of 1,998 cc (121.9 cu in).

The engine was next used in the Triumph Vitesse, a sports saloon based on the Herald, in 1962. In this application the engine had a 66.75 mm (2.6 in) bore, reducing displacement to 1,596 cc (97.4 cu in). The Vitesse got the 2 L engine in 1966.

The Triumph 2000 replaced the Vanguard Six in 1963 when Leyland discontinued the Standard marque. The 2 L six was later used in the Spitfire-based GT6 coupé from 1966 to 1974.

In 1967 the engine replaced the Standard inline-four in the new Triumph TR5 and TR250 models. For this application the stroke was increased to 95 mm (3.7 in), raising displacement to 2,498 cc (152.4 cu in).

This engine was succeeded by the Leyland PE 146 and PE 166 engines designed by Triumph for the new Rover SD1.[7] Although the earliest proposals for this project were for a new overhead camshaft cylinder-head on the original block, limitations in the Triumph block caused this option to be rejected, and the new OHC six shared no parts with the old Triumph engine.[13]

Replacement

Although never directly replaced by another engine in the Triumph Spitfire, the SC was superseded by the Triumph slant-four as the premier power unit in the higher specification Dolomites.

References

  1. "Standard Motor Co". 1 September 2018. https://www.gracesguide.co.uk/Standard_Motor_Co. 
  2. Robson, Graham (15 July 2011). The Book of the Standard Motor Company. Veloce Publishing. p. 147 - 150. ISBN 978-1845843434. 
  3. 3.0 3.1 Vale, Matthew (5 October 2015). Triumph Dolomite: An Enthusiast's Guide. The Crowood Press Ltd.. ISBN 978-1847978936. 
  4. "Reliant Engines". https://www.reliant.website/engines.shtml. 
  5. Payne, Elvis (2016). The Reliant Motor Company. Manchester. pp. 37. ISBN 978-1908347367. 
  6. 6.0 6.1 "News Summary". Practical Motorist 7 (nbr 83): 1187. July 1961. 
  7. 7.0 7.1 "Rover six cylinder, The Triumph connection". http://www.roversd1.nl/sd1web/6inline.html. 
  8. Sedgwick, Michael; Gillies, Mark (28 October 2010). Classic and Sports Car Magazine A-Z of Cars 1945-1970. Herridge & Sons Ltd. p. 203. ISBN 978-1906133269. 
  9. 9.0 9.1 Robson, Graham (1 September 1982). Triumph Spitfire: Spitfire 1,2,3,Iv,1500; Gt6 1,2,3. Osprey Publishing. p. 187. ISBN 978-0850454529. 
  10. "Macau Head". 16 January 2009. http://triumphmuseum.blogspot.com/2009/01/macau-head.html. 
  11. 1500 workshop manual. British Leyland UK limited. 
  12. Parsons, Mark (December 2016). "HISTORY OF THE STANDARD/TRIUMPH 6 CYLINDER ENGINE". The Triumphant Standard (Standard and Triumph Car Club of NSW Inc.): 13. https://www.stcc.com.au/pg_technicalpdf.php?id=36. Retrieved 1 January 2019. 
  13. Adams, Keith (28 December 2016). "Engines : Rover SD1 Six (PE166)". https://www.aronline.co.uk/facts-and-figures/engines/engines-rover-sd1-six/.