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4-4-0

January 04, 2023

4-4-0 is a locomotive type with a classification that uses the Whyte notation for the classification of steam locomotives by wheel arrangement and represents the arrangement: four leading wheels on two axles (usually in a leading bogie), four powered and coupled driving wheels on two axles, and a lack of trailing wheels. Due to the large number of the type that were produced and used in the United States, the 4-4-0 is most commonly known as the American type, but the type subsequently also became popular in the United Kingdom, where large numbers were produced.[1]

4-4-0 (American)
Front of locomotive at left
1836 Patent drawing of the first 4-4-0 locomotive
Equivalent classifications
UIC class2′B
French class220
Turkish class24
Swiss class2/4
Russian class2-2-0
First known tank engine version
First use1849
CountryUnited Kingdom
LocomotiveGWR Bogie Class
RailwaySouth Devon Railway
BuilderGreat Western Railway
First known tender engine version
First use1836
CountryUnited States of America
RailwayPhiladelphia, Germantown and Norristown Railway
DesignerHenry Roe Campbell
BuilderPhiladelphia, Germantown and Norristown Railway
Evolved from4-2-0
Evolved to4-4-2
BenefitsBetter tractive effort than the 4-2-0
DrawbacksCould only pull a few cars due to its small size

Almost every major railroad that operated in North America in the first half of the 19th century owned and operated locomotives of this type.

The first use of the name American to describe locomotives of this wheel arrangement was made by Railroad Gazette in April 1872.[1] Prior to that, this wheel arrangement was known as a standard or eight-wheeler.

This locomotive type was so successful on railroads in the United States of America that many earlier 4-2-0 and 2-4-0 locomotives were rebuilt as 4-4-0s by the middle of the 19th century.[1][2]

Several 4-4-0 tank locomotives were built, but the vast majority of locomotives of this wheel arrangement were tender engines.

Development

American development

Five years after new locomotive construction had begun at the West Point Foundry in the United States with the 0-4-0 Best Friend of Charleston in 1831, the first 4-4-0 locomotive was designed by Henry R. Campbell, at the time the chief engineer for the Philadelphia, Germantown and Norristown Railway. Campbell received a patent for the design in February 1836 and soon set to work building the first 4-4-0.[1]

At the time, Campbell's 4-4-0 was a giant among locomotives. Its cylinders had a 14-inch (360 mm) bore with a 16-inch (410 mm) piston stroke, it boasted 54-inch (1,400 mm) diameter driving wheels, could maintain 90 pounds per square inch (620 kPa) of steam pressure and weighed 12 short tons (11 t). Campbell's locomotive was estimated to be able to pull a train of 450 short tons (410 t) at 15 miles per hour (24 km/h) on level track, outperforming the strongest of Baldwin's 4-2-0s in tractive effort by about 63%. However, the frame and driving gear of his locomotive proved to be too rigid for the railroads of the time, which caused Campbell's prototype to be derailment-prone. The most obvious cause was the lack of a weight equalizing system for the drivers.[1]

 
An 1880s woodcut of a 4-4-0 locomotive

At about the same time as Campbell was building his 4-4-0, the company of Eastwick and Harrison was building its own version of the 4-4-0. This locomotive, named Hercules, was completed in 1837 for the Beaver Meadow Railroad. It was built with a leading bogie that was separate from the locomotive frame, making it much more suitable for the tight curves and quick grade changes of early railroads. The Hercules initially suffered from poor tracking, which was corrected by giving it an effective springing system when returned to its builder for remodeling.[1]

 
1856 relief sculpture of a 4-4-0 commissioned by the Norris Locomotive Works, depicting an early model prior to the adoption of the covered cab
 
Remains of a 4-4-0 locomotive of the Richmond & Petersburg Railroad, Richmond Virginia 1865

Even though the Hercules and its successors from Eastwick and Harrison proved the viability of the new wheel arrangement, the company remained the sole builders of this type of locomotive for another two years. Norris Locomotive Works built that company's first 4-4-0 in 1839, followed by Rogers Locomotive & Machine Works, the Locks & Canals Machine Shop and the Newcastle Manufacturing Company in 1840. After Henry Campbell sued other manufacturers and railroads for infringing on his patent, Baldwin settled with him in 1845 by purchasing a license to build 4-4-0s.[1]

 
Short wheelbased St Lawrence & Atlantic Railroad Coos, c. 1856, Longueuil, Quebec

As the 1840s progressed, the design of the 4-4-0 changed little, but the dimensions of a typical example of this type increased. The boiler was lengthened, drivers grew in diameter and the firegrate was increased in area. Early 4-4-0s were short enough that it was most practical to connect the pistons to the rear drivers, but as the boiler was lengthened, the connecting rods were more frequently connected to the front drivers.[1]

In the 1850s, locomotive manufacturers began extending the wheelbase of the leading bogie and the drivers as well as the tender bogies. By placing the axles farther apart, manufacturers were able to mount a wider boiler completely above the wheels that extended beyond the sides of the wheels. This gave newer locomotives increased heating and steaming capacity, which translated to higher tractive effort. Similarly, by placing the leading bogie axles further apart enabled the cylinders to be placed between them in a more horizontal orientation, thereby distributing the engine's weight more evenly when going around curves and uneven track. These advancements, combined with the increasingly widespread adaptation of cowcatchers, bells, and headlights, would give the 4-4-0 locomotives the appearance for which they would be most recognized by railways and people around the world.[1]

The design and subsequent improvements of the 4-4-0 configuration proved so successful that, by 1872, 60% of Baldwin's locomotive construction was of this type and it is estimated that 85% of all locomotives in operation in the United States were 4-4-0s. However, the 4-4-0 was soon supplanted by bigger designs, like the 2-6-0 and 2-8-0, even though the 4-4-0 wheel arrangement was still favored for express services. The widespread adoption of the 4-6-0 and larger locomotives eventually helped seal its fate as a product of the past.[1]

Although largely superseded in North American service by the early 20th century, Baldwin Locomotive Works produced two examples for the narrow gauge Ferrocarriles Unidos de Yucatán in early 1946, probably the last engines of this wheel arrangement intended for general use.[3] A number of individual engines have been custom-built for Theme Parks in recent years, resembling early designs in appearance.

British development

The first British locomotives to use this wheel arrangement were the 7 ft 14 in (2,140 mm) broad gauge 4-4-0 tank engine designs which appeared from 1849. The first British tender locomotive class, although of limited success, was the broad gauge Waverley class of the Great Western Railway, designed by Daniel Gooch and built by Robert Stephenson & Company in 1855.[4]

The first American-style British 4-4-0 tender locomotive on 4 ft 8+12 in (1,435 mm) standard gauge, designed by William Bouch for the Stockton & Darlington Railway in 1860, followed American practice with two outside cylinders.[5]

Britain's major contribution to the development of the 4-4-0 wheel arrangement was the inside cylinder version, which resulted in a steadier locomotive, less prone to oscillation at speed. This type was introduced in Scotland in 1871 by Thomas Wheatley of the North British Railway.[6]

Use

Australia

The first 4-4-0s appeared in South Australia in 1859. From that initial order for two locomotives, the numbers of this wheel arrangement multiplied and eventually appeared in most of the Australian colonies. Tender, tank and saddle tank versions, varying in size from small engines to express passenger racers with 6 feet 6 inches (1,981 millimetres) driving wheels, worked in Victoria, New South Wales, Western Australia and Tasmania on 3 ft 6 in (1,067 mm) gauge, 4 ft 8+12 in (1,435 mm) standard gauge and 5 ft 3 in (1,600 mm) gauge.[7]

The locomotives originally from British builders such as Dübs & Company and Beyer, Peacock & Company, however, from late 1870's into the 1880s, railways also bought locomotives from American builders, mostly from Baldwin, as well as a few examples bought from the Rogers Locomotive & Machine Works in New Jersey. From the 1880s onward, local firms such as James Martin & Co. in Gawler, South Australia, and the Phoenix Foundry in Ballarat, Victoria would also build examples. In New South Wales and Victoria, the 4-4-0 ruled the rails for mainline passenger services until the early 1900s. In Western Australia, some were later converted to 4-4-2s.[8][9]

Finland

 
Finnish Class A4 locomotive of 1872

In Finland, the 4-4-0 was represented by the Classes A1, A2, A3, A4, A5, A6 and A7.

Mozambique

Between 1895 and 1898, Pauling & Company placed 42 Falcon F2 and F4 4-4-0 tender locomotives in service on the 2 ft (610 mm) narrow gauge railway which was being constructed for the Beira Railway in Mozambique. They were supplied in six batches by Falcon Engine & Car Works in England and the Glasgow Railway Engineering Company in Scotland.[10][11][12]

In service, these locomotives were nicknamed Lawleys after the Beira Railway construction subcontractor. The construction of the last batch of ten F4 locomotives was subcontracted by Falcon to the Glasgow Railway Engineering Company in Scotland and these were consequently often referred to as the Drummond F4.[10][11][12][13]

The Falcon F4 was larger and heavier than the earlier F2, with a tractive effort that was increased from the 3,000 pounds-force (13.3 kilonewtons) of the F2 to 3,987 pounds-force (17.7 kilonewtons) at 75% boiler pressure. It could haul 180 long tons (182.9 tonnes) up the ruling gradients, compared to the 160 long tons (162.6 tonnes) that the F2 could manage.[11]

New Zealand

The NZR LA class tank locomotives of 1887 were built in Britain by Nasmyth, Wilson & Company in 1887 for the New Zealand Midland Railway Company. They were taken over by the New Zealand Railways Department in 1900, when the government acquired the incomplete Midland line.

Rhodesia

When the Beira Railway in Mozambique was regauged to 3 ft 6 in (1,067 mm) by 1900 and the whole 4-4-0 Lawley locomotive fleet was staged, six of the Mozambican F4 locomotives were acquired by the Ayrshire Railway, which was then under construction in Southern Rhodesia. They remained in service there until 1914, when this line was also converted to Cape gauge and became the Sinoia branch of the Beira, Mashonaland and Rhodesia Railway.[10][11][13]

South Africa

Narrow gauge

In 1907 and 1910, the Tongaat Sugar Estates in Natal acquired two 4-4-0 tank locomotives from WG Bagnall for their 2 ft (610 mm) gauge line. These locomotives had 9 by 14 inches (229 by 356 millimetres) cylinders. A further eleven similar locomotives, but with 10 by 15 inches (254 by 381 millimetres) cylinders, were delivered from the same manufacturer between 1926 and 1946.[citation needed]

 
SAR Class NG6 no. 106

In 1915, thirteen of the Beira Railway's retired narrow gauge Falcon F2 and F4 locomotives were acquired from Mozambique by the Union Defence Forces for use in South Africa, where they replaced locomotives that had been commandeered for the war effort in German South West Africa during World War I. At the end of the war, these locomotives were staged until they were placed back in service by the South African Railways (SAR) in 1921. When a system of grouping narrow gauge locomotives into classes was eventually introduced by the SAR between 1928 and 1930, they were classified as Class NG6.[10][13]

In 1936, Bagnall built a single 4-4-0 tank locomotive, named Burnside and with 11+12 by 15 inches (292 by 381 millimetres) cylinders, for the 2 ft 0+12 in (622 mm) gauge line of the Natal Estates sugar plantation at Mount Edgecombe in Natal.[citation needed]

Standard gauge

The third locomotive of the 4 ft 8+12 in (1,435 mm) standard gauge Natal Railway Company was delivered in January 1876, sixteen years after the opening of the railway. It was a 4-4-0 side tank engine, built by Kitson & Company and named Perseverance. This was the last standard gauge locomotive to be obtained by the Natal Railway Company before the establishment of the Natal Government Railways in 1877 and the conversion from Standard gauge to 3 ft 6 in (1,067 mm) Cape gauge.[14][15]

Cape gauge

 
CGR 1st Class with optional tender

Seven side-tank locomotives were built for the Cape Government Railways (CGR) by Robert Stephenson & Company in 1875. Since they were found to be fast and reliable engines, four more were delivered in 1880, built by Neilson & Company and practically identical to the previous seven, but equipped with small optional four-wheeled water tenders. They were all designated 1st Class when a locomotive classification system was introduced by the CGR.[14][16]

In 1879, the Cape Government Railways placed four 1st Class tender locomotives in service, built by the Avonside Engine Company. They were intended for fast passenger service on the Cape Western and Eastern systems and were followed by eleven more from Neilson & Company in 1880.[14][16]

In 1881, the CGR placed six more 1st Class tank-and-tender locomotives in service on its Cape Midland system. These were built by Neilson & Company as tender locomotives without on-board coal bunkers and with permanently attached coal and water tenders. Two of them became SAR Class 01 in 1912.[14][16]

 
Wynberg Tank, c. 1882

Between 1882 and 1891, eleven 4-4-0T tank locomotives for the Wynberg suburban line in Cape Town were delivered to the CGR from Neilson and Dübs & Company. Designated 2nd Class and known as Wynberg Tanks, ten of them became SAR Class 02 in 1912.[10][14]

In 1882, two tank locomotives named Grahamstown and Bathurst entered passenger service on the private Kowie Railway between Grahamstown and Port Alfred, which was still under construction at the time.[14]

 
CGR 3rd Class 4-4-0 Sir Hercules

Eighteen tender passenger locomotives were delivered to the CGR from Neilson & Company in 1883, designated 3rd Class. They were ordered for passenger service out of Cape Town, East London and Port Elizabeth respectively and were equipped with six-wheeled tenders.[10][14]

In 1884, the CGR placed two experimental 3rd Class tender locomotives in service, designed by the Cape Eastern System to be able to use the low-grade local coal with its high incombustible matter content.[14]

In 1889, the CGR placed 24 3rd Class tender locomotives in service. They were the first stock locomotives to be built in quantity to detailed designs prepared in the Cape of Good Hope.[14]

 
CGR 3rd Class Wynberg Tender

In 1898, the CGR placed six 3rd Class Wynberg Tender locomotives in passenger service on the suburban lines in Cape Town.[10][14]

In 1901, the CGR placed another six 3rd Class Wynberg Tender locomotives in suburban service in Cape Town. They were a heavier and more powerful version of the locomotives of 1898 and were built for speed, with the largest coupled wheels of any locomotive on the CGR to date at 60 inches (1,520 millimetres) diameter.[10][14]

In 1903, the CGR placed the last eight 3rd Class Wynberg Tenders in suburban service in Cape Town. While they appeared to be virtually identical to the locomotives of 1901 at first glance, they were heavier and more powerful.[10][14]

United Kingdom

Tank locomotives

 
Bogie class 4-4-0ST Horace of 1854

4-4-0T classes began to appear on 7 ft 14 in (2,140 mm) broad-gauge lines in the United Kingdom from 1849. The Great Western Railway built its Bogie class saddle tanks for the South Devon Railway in 1849, and others for its own use during 1854 and 1855. Between 1851 and 1876, the South Devon Railway acquired a further six saddle tank classes, and the Vale of Neath Railway a further nine. The Bristol and Exeter Railway introduced several 4-4-0ST classes after 1855.[17]

William Adams built a series of standard gauge 4-4-0T classes for the North London Railway between 1863 and 1876. He went on to build the LSWR 46 Class for the London & South Western Railway in 1879. Other British 4-4-0T types included the A Class of the Metropolitan Railway, built by Beyer, Peacock & Company from 1864, and the Highland Railway O Class of 1878 and P class of 1893–94. Also in 1864, John Lambie of the Caledonian Railway built twelve Class 1 4-4-0T locomotives.

Inside cylinder tender locomotives

 
A LB&SCR B4 class c.1910 typical of the British inside frame/inside cylinder layout

Between 1876 and 1903, Samuel Johnson of the Midland Railway built 350 inside cylinder tender locomotives to various designs, notably the Midland Railway 483 Class. The type was particularly refined by John F. McIntosh of the Caledonian Railway with his Dunalastair and Breadalbane classes of 1896 to 1898. In addition, Wilson Worsdell of the North Eastern Railway designed six classes between 1896 and 1909. Other notable classes included the London & South Western Railway’s T9 class of 1899 and the London & North Western Railway’s Precursor Class of 1904.[6]

From the mid-1890s until after World War I, the inside cylinder 4-4-0 was the standard type for British Express passenger trains, although several classes were also used in mixed-traffic service in later years.[6]

The Great Western Railway (GWR) preferred to retain outside frames on their inside cylinder 4-4-0s. One member of its City class, the City of Truro, designed by George Jackson Churchward and built at the GWR's Swindon Works in 1903, was reputedly the first steam locomotive in Europe to travel in excess of 100 miles per hour (160 kilometres per hour), reaching a speed of 102.3 miles per hour (164.6 kilometres per hour) on 9 May 1904 while hauling the Ocean Mails special from Plymouth to London Paddington.

Although the inside cylinder 4-4-0 had largely been superseded by larger locomotives for mainline express trains by 1920, the type remained in use in Scotland and East Anglia, where lines that could not support heavier or larger locomotives were common. Thus both the Great Eastern Railway’s Claud Hamilton classes of 1900 to 1911 and the Great Central Railway’s Director classes of 1920 were perpetuated by the London & North Eastern Railway in 1923. Until 1932, the London, Midland & Scottish Railway also continued to build its Class 2P of traditional inside cylinder 4-4-0s for secondary passenger working.

Three-cylinder tender locomotives

 
Southern Railway Schools class Stowe, constructed in 1934

Experiments were conducted with three-cylinder compound locomotives by Wilson Worsdell of the North Eastern Railway in 1898, Samuel Johnson of the Midland Railway in 1901 and Francis Webb of the London & North Western Railway. Of these, the development of Johnson's design by Richard Deeley of the Midland Railway into the 1000 Class was the most successful. This class continued to be built by the London Midland & Scottish Railway (LMS) after 1905, until 1932 with the almost identical LMS Compound 4-4-0.

British three-cylinder simple expansion (simplex) locomotives included Nigel Gresley's LNER Class D49 Hunt and Shire 4-4-0s of 1927–28. However, the most powerful and one of the most successful 4-4-0 designs ever constructed was the Schools class of the Southern Railway, designed by Richard Maunsell and built between 1930 and 1935. These were used on secondary express trains between London and South Coast towns, until their withdrawal in 1962.[18]

United States

 
AM&O no. 87, delivered on flatcars due to breaks-of-gauge

Since the first locomotives in the United States were imported from the United Kingdom, the British 4 ft 8+12 in (1,435 mm) standard gauge was also adopted by the first United States railroads. When new locomotive construction began in the United States in 1831, some new railroads opted for a different gauge, resulting in breaks-of-gauge as railroads began to be joined. Apart from freight reloading issues, another result was that new locomotives for some of these railroads had to be delivered on flatcars.

The 4-4-0 played a major role in the development of rail transport in the United States. Some of the notable 4-4-0 locomotives that saw service on United States railroads are:

 
An AT&SF 4-4-0 on a passenger train across Kansas, c. 1895
 
Pennsylvania Railroad class D6 4-4-0 No. 317, built in 1881.

By 1910, the 4-4-0 was considered obsolete being replaced by Mikados, Pacifics and other larger engines, although they continued to serve to an extent into the 1950s. The last 4-4-0 to be built was a diminutive Baldwin product for the United Railways of Yucatan in 1945. Fewer than forty 4-4-0s survive in preservation in the United States, reproductions excluded.[1]

 
Ferrocarriles Unidos de Yucatán No. 66, ca. 1953

Between 1959 and 1989, the Crown Metal Products Company of Wyano, Pennsylvania built live steam reproductions of classic 4-4-0 designs for use by amusement parks. The largest of these, of which 18 were produced, ran on 3 ft (914 mm) narrow gauge track. Most are patterned after 19th-century American designs, but those produced for Busch Gardens have European styling. Many of these continue to see daily operation at parks such as Kings Island, Worlds of Fun, and the Omaha Zoo Railroad at Omaha's Henry Doorly Zoo & Aquarium.

Operational historic locomotives

North America

There are a handful of full-size 4-4-0 steam locomotives built prior to 1945 that are still operating in the US and Canada.[29][30] The following is a list of locations with at least one working example and tracks on which to run it.

Location Address Road number(s)/Name(s) Track gauge Number of 4-4-0s Year(s) built Notes
Dan Markoff private residence Las Vegas, Nevada, US 4 Eureka 3 ft (914 mm) 1 1875 It retained its original boiler.
Nevada State Railroad Museum Carson City, Nevada, US 22 Inyo 4 ft 8+12 in (1,435 mm) 1 1875 Appeared in over twenty Hollywood Westerns
Prairie Dog Central Railway Winnipeg, Manitoba, Canada 3 4 ft 8+12 in (1,435 mm) 1 1882
South Simcoe Railway Tottenham, Ontario, Canada 136 4 ft 8+12 in (1,435 mm) 1 1883
Walt Disney World Railroad (Magic Kingdom) Bay Lake, Florida, US 4 Roy O. Disney 3 ft (914 mm) 1 1916 Significantly altered from its original appearance to resemble steam locomotives from the 1880s.[31]
Weiser Railroad (Greenfield Village) Dearborn, Michigan, US 1 Edison, 7 4 ft 8+12 in (1,435 mm) 2 1870; 1897 The steam locomotive built in 1870 was originally an 0-4-0; it was rebuilt as a 4-4-0 in 1932 by the Ford Motor Company.[32]
Wilmington & Western Railroad Marshallton, Delaware, US 98 4 ft 8+12 in (1,435 mm) 1 1909

References

  1. ^ a b c d e f g h i j k White, John H., Jr. (1968). A history of the American locomotive; its development: 1830-1880. New York: Dover Publications, pp. 46-. ISBN 0-486-23818-0
  2. ^ Kinert, Reed. (1962). Early American steam locomotives; 1st seven decades: 1830-1900. Seattle, WA: Superior Publishing Company.
  3. ^ Trains magazine, June 1946
  4. ^ Richard Marshall. . Archived from the original on 2011-07-23. Retrieved 2010-05-02.
  5. ^ Marsden, Richard. "The London & North Eastern Railway (LNER) Encyclopedia - William Bouch". from the original on 7 July 2007. Retrieved 2007-06-11.
  6. ^ a b c Poultney, Edward Cecil (1952). British express locomotive development 1896-1948. London: Allen & Unwin. pp. 56–65.
  7. ^ Oberg, Leon. (1975). Locomotives of Australia. Sydney, London: Reed.
  8. ^ Australian Railway Historical Society, A Century Plus of Locomotives New South Wales Railways 1855-1965, ARHS, Sydney, 1965
  9. ^ Victorian Railways, Power Parade: 1854-1954, Victorian Railways, 1954
  10. ^ a b c d e f g h i Paxton, Leith; Bourne, David (1985). Locomotives of the South African Railways (1st ed.). Cape Town: Struik. pp. 15–18, 103–104. ISBN 0869772112.
  11. ^ a b c d Baxter, Antony. The Two Foot Gauge Enigma (1st ed.). Plateway Press. pp. 37-45 & Appendix V. ISBN 1-871980-34-8.
  12. ^ a b Pattison, R.G. (2005). Thundering Smoke, (1st ed.). Sable Publishing House. ISBN 0-9549488-1-5
  13. ^ a b c Railway Modelling Scene, South Africa, May/June 1985, article written by Neill Mardell
  14. ^ a b c d e f g h i j k l Holland, D.F. (1971). Steam Locomotives of the South African Railways. Vol. 1: 1859–1910 (1st ed.). Newton Abbott, England: David & Charles. pp. 20–22, 25–26, 30–31, 35–39, 59–61, 76–77, 80–83, 106–108. ISBN 978-0-7153-5382-0.
  15. ^ The Natal Mercury of 12 January 1876.
  16. ^ a b c C.G.R. Numbering Revised, Article by Dave Littley, SA Rail May–June 1993, pp. 94-95.
  17. ^ Reed, P. J. T. (February 1953). White, D. E. (ed.). The Locomotives of the Great Western Railway, Part 2: Broad Gauge. Kenilworth: RCTS. pp. B21–B23. ISBN 0-901115-32-0.
  18. ^ . Archived from the original on 2016-03-22. Retrieved 2006-02-18.
  19. ^ Moshein, Peter; Rothfus, Robert R. (1992). "Rogers locomotives: A brief history and construction list". Railroad History (167): 13–147.
  20. ^ Bonds, Russell S. (2007). Stealing the General; The Great Locomotive Chase and the First Medal of Honor. Yardley, Pennsylvania: Westholme Publishing. pp. 94–95. ISBN 978-1-59416-033-2.
  21. ^ . Archived from the original on 2012-06-17. Retrieved 2012-09-28.
  22. ^ Texas Information Page
  23. ^ Everlasting Steam: The Story of Jupiter and No. 119
  24. ^ . Archived from the original on 2011-09-30.
  25. ^ Koenig, Karl R. (1980). Virginia & Truckee Locomotives. Chatham Publishing. pp. 58, 65. ISBN 0-89685-102-8.
  26. ^ Fleet-wheeled wonder: New York Central & Hudson River Railroad's no. 999, by Kevin V. Bunker
  27. ^ . Genesee County, New York. Archived from the original on December 30, 2005. Retrieved March 1, 2006.
  28. ^ Broggie, Michael (2014), Walt Disney's Railroad Story: The Small-Scale Fascination That Led to a Full-Scale Kingdom (4th ed.), The Donning Company Publishers, pp. 320–323, 393–394, ISBN 978-1-57864-914-3
  29. ^ Surviving Steam Locomotive Search – US
  30. ^ Surviving Steam Locomotive Search – Canada
  31. ^ Leaphart, David (2016), Walt Disney World Railroads Part 3: Yucatan Jewels (1st ed.), Steel Wheel on Steel Rail Studio, p. 106, ISBN 978-1-5330-3707-7
  32. ^ Greenfield Village Perimeter Railroad: from concept to reality

External links

 
Wikimedia Commons has media related to 4-4-0 locomotives.
  • Building a 1/8 scale Live Steam 4-4-0 locomotive This site includes a full 1875 shop drawing of a Baldwin 4-4-0
  • Winchester, Clarence, ed. (1936), "A famous locomotive type", Railway Wonders of the World, pp. 1173–79, illustrated account of the development of the 4-4-0 in Britain

January 04, 2023
locomotive, type, with, classification, that, uses, whyte, notation, classification, steam, locomotives, wheel, arrangement, represents, arrangement, four, leading, wheels, axles, usually, leading, bogie, four, powered, coupled, driving, wheels, axles, lack, t. 4 4 0 is a locomotive type with a classification that uses the Whyte notation for the classification of steam locomotives by wheel arrangement and represents the arrangement four leading wheels on two axles usually in a leading bogie four powered and coupled driving wheels on two axles and a lack of trailing wheels Due to the large number of the type that were produced and used in the United States the 4 4 0 is most commonly known as the American type but the type subsequently also became popular in the United Kingdom where large numbers were produced 1 4 4 0 American Front of locomotive at left1836 Patent drawing of the first 4 4 0 locomotiveEquivalent classificationsUIC class2 BFrench class220Turkish class24Swiss class2 4Russian class2 2 0First known tank engine versionFirst use1849CountryUnited KingdomLocomotiveGWR Bogie ClassRailwaySouth Devon RailwayBuilderGreat Western RailwayFirst known tender engine versionFirst use1836CountryUnited States of AmericaRailwayPhiladelphia Germantown and Norristown RailwayDesignerHenry Roe CampbellBuilderPhiladelphia Germantown and Norristown RailwayEvolved from4 2 0Evolved to4 4 2BenefitsBetter tractive effort than the 4 2 0DrawbacksCould only pull a few cars due to its small sizeAlmost every major railroad that operated in North America in the first half of the 19th century owned and operated locomotives of this type Contents 1 Development 1 1 American development 1 2 British development 2 Use 2 1 Australia 2 2 Finland 2 3 Mozambique 2 4 New Zealand 2 5 Rhodesia 2 6 South Africa 2 6 1 Narrow gauge 2 6 2 Standard gauge 2 6 3 Cape gauge 2 7 United Kingdom 2 7 1 Tank locomotives 2 7 2 Inside cylinder tender locomotives 2 7 3 Three cylinder tender locomotives 2 8 United States 3 Operational historic locomotives 3 1 North America 4 References 5 External linksThe first use of the name American to describe locomotives of this wheel arrangement was made by Railroad Gazette in April 1872 1 Prior to that this wheel arrangement was known as a standard or eight wheeler This locomotive type was so successful on railroads in the United States of America that many earlier 4 2 0 and 2 4 0 locomotives were rebuilt as 4 4 0s by the middle of the 19th century 1 2 Several 4 4 0 tank locomotives were built but the vast majority of locomotives of this wheel arrangement were tender engines Development EditAmerican development Edit Five years after new locomotive construction had begun at the West Point Foundry in the United States with the 0 4 0 Best Friend of Charleston in 1831 the first 4 4 0 locomotive was designed by Henry R Campbell at the time the chief engineer for the Philadelphia Germantown and Norristown Railway Campbell received a patent for the design in February 1836 and soon set to work building the first 4 4 0 1 At the time Campbell s 4 4 0 was a giant among locomotives Its cylinders had a 14 inch 360 mm bore with a 16 inch 410 mm piston stroke it boasted 54 inch 1 400 mm diameter driving wheels could maintain 90 pounds per square inch 620 kPa of steam pressure and weighed 12 short tons 11 t Campbell s locomotive was estimated to be able to pull a train of 450 short tons 410 t at 15 miles per hour 24 km h on level track outperforming the strongest of Baldwin s 4 2 0 s in tractive effort by about 63 However the frame and driving gear of his locomotive proved to be too rigid for the railroads of the time which caused Campbell s prototype to be derailment prone The most obvious cause was the lack of a weight equalizing system for the drivers 1 An 1880s woodcut of a 4 4 0 locomotive At about the same time as Campbell was building his 4 4 0 the company of Eastwick and Harrison was building its own version of the 4 4 0 This locomotive named Hercules was completed in 1837 for the Beaver Meadow Railroad It was built with a leading bogie that was separate from the locomotive frame making it much more suitable for the tight curves and quick grade changes of early railroads The Hercules initially suffered from poor tracking which was corrected by giving it an effective springing system when returned to its builder for remodeling 1 1856 relief sculpture of a 4 4 0 commissioned by the Norris Locomotive Works depicting an early model prior to the adoption of the covered cab Remains of a 4 4 0 locomotive of the Richmond amp Petersburg Railroad Richmond Virginia 1865 Even though the Hercules and its successors from Eastwick and Harrison proved the viability of the new wheel arrangement the company remained the sole builders of this type of locomotive for another two years Norris Locomotive Works built that company s first 4 4 0 in 1839 followed by Rogers Locomotive amp Machine Works the Locks amp Canals Machine Shop and the Newcastle Manufacturing Company in 1840 After Henry Campbell sued other manufacturers and railroads for infringing on his patent Baldwin settled with him in 1845 by purchasing a license to build 4 4 0s 1 Short wheelbased St Lawrence amp Atlantic Railroad Coos c 1856 Longueuil Quebec As the 1840s progressed the design of the 4 4 0 changed little but the dimensions of a typical example of this type increased The boiler was lengthened drivers grew in diameter and the firegrate was increased in area Early 4 4 0s were short enough that it was most practical to connect the pistons to the rear drivers but as the boiler was lengthened the connecting rods were more frequently connected to the front drivers 1 In the 1850s locomotive manufacturers began extending the wheelbase of the leading bogie and the drivers as well as the tender bogies By placing the axles farther apart manufacturers were able to mount a wider boiler completely above the wheels that extended beyond the sides of the wheels This gave newer locomotives increased heating and steaming capacity which translated to higher tractive effort Similarly by placing the leading bogie axles further apart enabled the cylinders to be placed between them in a more horizontal orientation thereby distributing the engine s weight more evenly when going around curves and uneven track These advancements combined with the increasingly widespread adaptation of cowcatchers bells and headlights would give the 4 4 0 locomotives the appearance for which they would be most recognized by railways and people around the world 1 The design and subsequent improvements of the 4 4 0 configuration proved so successful that by 1872 60 of Baldwin s locomotive construction was of this type and it is estimated that 85 of all locomotives in operation in the United States were 4 4 0 s However the 4 4 0 was soon supplanted by bigger designs like the 2 6 0 and 2 8 0 even though the 4 4 0 wheel arrangement was still favored for express services The widespread adoption of the 4 6 0 and larger locomotives eventually helped seal its fate as a product of the past 1 Although largely superseded in North American service by the early 20th century Baldwin Locomotive Works produced two examples for the narrow gauge Ferrocarriles Unidos de Yucatan in early 1946 probably the last engines of this wheel arrangement intended for general use 3 A number of individual engines have been custom built for Theme Parks in recent years resembling early designs in appearance British development Edit The first British locomotives to use this wheel arrangement were the 7 ft 1 4 in 2 140 mm broad gauge 4 4 0 tank engine designs which appeared from 1849 The first British tender locomotive class although of limited success was the broad gauge Waverley class of the Great Western Railway designed by Daniel Gooch and built by Robert Stephenson amp Company in 1855 4 The first American style British 4 4 0 tender locomotive on 4 ft 8 1 2 in 1 435 mm standard gauge designed by William Bouch for the Stockton amp Darlington Railway in 1860 followed American practice with two outside cylinders 5 Britain s major contribution to the development of the 4 4 0 wheel arrangement was the inside cylinder version which resulted in a steadier locomotive less prone to oscillation at speed This type was introduced in Scotland in 1871 by Thomas Wheatley of the North British Railway 6 Use EditAustralia Edit South Australian Railways S class No 151 at Murray Bridge in March 1951 The first 4 4 0s appeared in South Australia in 1859 From that initial order for two locomotives the numbers of this wheel arrangement multiplied and eventually appeared in most of the Australian colonies Tender tank and saddle tank versions varying in size from small engines to express passenger racers with 6 feet 6 inches 1 981 millimetres driving wheels worked in Victoria New South Wales Western Australia and Tasmania on 3 ft 6 in 1 067 mm gauge 4 ft 8 1 2 in 1 435 mm standard gauge and 5 ft 3 in 1 600 mm gauge 7 The locomotives originally from British builders such as Dubs amp Company and Beyer Peacock amp Company however from late 1870 s into the 1880s railways also bought locomotives from American builders mostly from Baldwin as well as a few examples bought from the Rogers Locomotive amp Machine Works in New Jersey From the 1880s onward local firms such as James Martin amp Co in Gawler South Australia and the Phoenix Foundry in Ballarat Victoria would also build examples In New South Wales and Victoria the 4 4 0 ruled the rails for mainline passenger services until the early 1900s In Western Australia some were later converted to 4 4 2 s 8 9 Finland Edit Finnish Class A4 locomotive of 1872 In Finland the 4 4 0 was represented by the Classes A1 A2 A3 A4 A5 A6 and A7 The Class A4 was a class of nine locomotives built in 1872 and 1873 by the Baldwin Locomotive Works for use on the Hanko Hyvinkaa railway The Finnish Steam Locomotive Class A5 was a class of only two locomotives built in 1874 and 1875 by the Finnish State Railroad s workshops in Helsinki One of them is preserved at the Finnish Railway Museum Mozambique Edit Restored Beira Railway Falcon F2 Between 1895 and 1898 Pauling amp Company placed 42 Falcon F2 and F4 4 4 0 tender locomotives in service on the 2 ft 610 mm narrow gauge railway which was being constructed for the Beira Railway in Mozambique They were supplied in six batches by Falcon Engine amp Car Works in England and the Glasgow Railway Engineering Company in Scotland 10 11 12 In service these locomotives were nicknamed Lawleys after the Beira Railway construction subcontractor The construction of the last batch of ten F4 locomotives was subcontracted by Falcon to the Glasgow Railway Engineering Company in Scotland and these were consequently often referred to as the Drummond F4 10 11 12 13 The Falcon F4 was larger and heavier than the earlier F2 with a tractive effort that was increased from the 3 000 pounds force 13 3 kilonewtons of the F2 to 3 987 pounds force 17 7 kilonewtons at 75 boiler pressure It could haul 180 long tons 182 9 tonnes up the ruling gradients compared to the 160 long tons 162 6 tonnes that the F2 could manage 11 New Zealand Edit The NZR LA class tank locomotives of 1887 were built in Britain by Nasmyth Wilson amp Company in 1887 for the New Zealand Midland Railway Company They were taken over by the New Zealand Railways Department in 1900 when the government acquired the incomplete Midland line Rhodesia Edit When the Beira Railway in Mozambique was regauged to 3 ft 6 in 1 067 mm by 1900 and the whole 4 4 0 Lawley locomotive fleet was staged six of the Mozambican F4 locomotives were acquired by the Ayrshire Railway which was then under construction in Southern Rhodesia They remained in service there until 1914 when this line was also converted to Cape gauge and became the Sinoia branch of the Beira Mashonaland and Rhodesia Railway 10 11 13 South Africa Edit Narrow gauge Edit In 1907 and 1910 the Tongaat Sugar Estates in Natal acquired two 4 4 0 tank locomotives from WG Bagnall for their 2 ft 610 mm gauge line These locomotives had 9 by 14 inches 229 by 356 millimetres cylinders A further eleven similar locomotives but with 10 by 15 inches 254 by 381 millimetres cylinders were delivered from the same manufacturer between 1926 and 1946 citation needed SAR Class NG6 no 106 In 1915 thirteen of the Beira Railway s retired narrow gauge Falcon F2 and F4 locomotives were acquired from Mozambique by the Union Defence Forces for use in South Africa where they replaced locomotives that had been commandeered for the war effort in German South West Africa during World War I At the end of the war these locomotives were staged until they were placed back in service by the South African Railways SAR in 1921 When a system of grouping narrow gauge locomotives into classes was eventually introduced by the SAR between 1928 and 1930 they were classified as Class NG6 10 13 In 1936 Bagnall built a single 4 4 0 tank locomotive named Burnside and with 11 1 2 by 15 inches 292 by 381 millimetres cylinders for the 2 ft 0 1 2 in 622 mm gauge line of the Natal Estates sugar plantation at Mount Edgecombe in Natal citation needed Standard gauge Edit Natal Railway Co Perseverance The third locomotive of the 4 ft 8 1 2 in 1 435 mm standard gauge Natal Railway Company was delivered in January 1876 sixteen years after the opening of the railway It was a 4 4 0 side tank engine built by Kitson amp Company and named Perseverance This was the last standard gauge locomotive to be obtained by the Natal Railway Company before the establishment of the Natal Government Railways in 1877 and the conversion from Standard gauge to 3 ft 6 in 1 067 mm Cape gauge 14 15 Cape gauge Edit CGR 1st Class with optional tender Seven side tank locomotives were built for the Cape Government Railways CGR by Robert Stephenson amp Company in 1875 Since they were found to be fast and reliable engines four more were delivered in 1880 built by Neilson amp Company and practically identical to the previous seven but equipped with small optional four wheeled water tenders They were all designated 1st Class when a locomotive classification system was introduced by the CGR 14 16 In 1879 the Cape Government Railways placed four 1st Class tender locomotives in service built by the Avonside Engine Company They were intended for fast passenger service on the Cape Western and Eastern systems and were followed by eleven more from Neilson amp Company in 1880 14 16 In 1881 the CGR placed six more 1st Class tank and tender locomotives in service on its Cape Midland system These were built by Neilson amp Company as tender locomotives without on board coal bunkers and with permanently attached coal and water tenders Two of them became SAR Class 01 in 1912 14 16 Wynberg Tank c 1882 Between 1882 and 1891 eleven 4 4 0T tank locomotives for the Wynberg suburban line in Cape Town were delivered to the CGR from Neilson and Dubs amp Company Designated 2nd Class and known as Wynberg Tanks ten of them became SAR Class 02 in 1912 10 14 In 1882 two tank locomotives named Grahamstown and Bathurst entered passenger service on the private Kowie Railway between Grahamstown and Port Alfred which was still under construction at the time 14 CGR 3rd Class 4 4 0 Sir Hercules Eighteen tender passenger locomotives were delivered to the CGR from Neilson amp Company in 1883 designated 3rd Class They were ordered for passenger service out of Cape Town East London and Port Elizabeth respectively and were equipped with six wheeled tenders 10 14 In 1884 the CGR placed two experimental 3rd Class tender locomotives in service designed by the Cape Eastern System to be able to use the low grade local coal with its high incombustible matter content 14 In 1889 the CGR placed 24 3rd Class tender locomotives in service They were the first stock locomotives to be built in quantity to detailed designs prepared in the Cape of Good Hope 14 CGR 3rd Class Wynberg Tender In 1898 the CGR placed six 3rd Class Wynberg Tender locomotives in passenger service on the suburban lines in Cape Town 10 14 In 1901 the CGR placed another six 3rd Class Wynberg Tender locomotives in suburban service in Cape Town They were a heavier and more powerful version of the locomotives of 1898 and were built for speed with the largest coupled wheels of any locomotive on the CGR to date at 60 inches 1 520 millimetres diameter 10 14 In 1903 the CGR placed the last eight 3rd Class Wynberg Tenders in suburban service in Cape Town While they appeared to be virtually identical to the locomotives of 1901 at first glance they were heavier and more powerful 10 14 United Kingdom Edit Tank locomotives Edit Bogie class 4 4 0ST Horace of 1854 4 4 0T classes began to appear on 7 ft 1 4 in 2 140 mm broad gauge lines in the United Kingdom from 1849 The Great Western Railway built its Bogie class saddle tanks for the South Devon Railway in 1849 and others for its own use during 1854 and 1855 Between 1851 and 1876 the South Devon Railway acquired a further six saddle tank classes and the Vale of Neath Railway a further nine The Bristol and Exeter Railway introduced several 4 4 0ST classes after 1855 17 William Adams built a series of standard gauge 4 4 0T classes for the North London Railway between 1863 and 1876 He went on to build the LSWR 46 Class for the London amp South Western Railway in 1879 Other British 4 4 0T types included the A Class of the Metropolitan Railway built by Beyer Peacock amp Company from 1864 and the Highland Railway O Class of 1878 and P class of 1893 94 Also in 1864 John Lambie of the Caledonian Railway built twelve Class 1 4 4 0T locomotives Inside cylinder tender locomotives Edit A LB amp SCR B4 class c 1910 typical of the British inside frame inside cylinder layout Between 1876 and 1903 Samuel Johnson of the Midland Railway built 350 inside cylinder tender locomotives to various designs notably the Midland Railway 483 Class The type was particularly refined by John F McIntosh of the Caledonian Railway with his Dunalastair and Breadalbane classes of 1896 to 1898 In addition Wilson Worsdell of the North Eastern Railway designed six classes between 1896 and 1909 Other notable classes included the London amp South Western Railway s T9 class of 1899 and the London amp North Western Railway s Precursor Class of 1904 6 From the mid 1890s until after World War I the inside cylinder 4 4 0 was the standard type for British Express passenger trains although several classes were also used in mixed traffic service in later years 6 City of Truro The Great Western Railway GWR preferred to retain outside frames on their inside cylinder 4 4 0s One member of its City class the City of Truro designed by George Jackson Churchward and built at the GWR s Swindon Works in 1903 was reputedly the first steam locomotive in Europe to travel in excess of 100 miles per hour 160 kilometres per hour reaching a speed of 102 3 miles per hour 164 6 kilometres per hour on 9 May 1904 while hauling the Ocean Mails special from Plymouth to London Paddington Although the inside cylinder 4 4 0 had largely been superseded by larger locomotives for mainline express trains by 1920 the type remained in use in Scotland and East Anglia where lines that could not support heavier or larger locomotives were common Thus both the Great Eastern Railway s Claud Hamilton classes of 1900 to 1911 and the Great Central Railway s Director classes of 1920 were perpetuated by the London amp North Eastern Railway in 1923 Until 1932 the London Midland amp Scottish Railway also continued to build its Class 2P of traditional inside cylinder 4 4 0s for secondary passenger working Three cylinder tender locomotives Edit Southern Railway Schools class Stowe constructed in 1934 Experiments were conducted with three cylinder compound locomotives by Wilson Worsdell of the North Eastern Railway in 1898 Samuel Johnson of the Midland Railway in 1901 and Francis Webb of the London amp North Western Railway Of these the development of Johnson s design by Richard Deeley of the Midland Railway into the 1000 Class was the most successful This class continued to be built by the London Midland amp Scottish Railway LMS after 1905 until 1932 with the almost identical LMS Compound 4 4 0 British three cylinder simple expansion simplex locomotives included Nigel Gresley s LNER Class D49 Hunt and Shire 4 4 0s of 1927 28 However the most powerful and one of the most successful 4 4 0 designs ever constructed was the Schools class of the Southern Railway designed by Richard Maunsell and built between 1930 and 1935 These were used on secondary express trains between London and South Coast towns until their withdrawal in 1962 18 United States Edit AM amp O no 87 delivered on flatcars due to breaks of gauge Since the first locomotives in the United States were imported from the United Kingdom the British 4 ft 8 1 2 in 1 435 mm standard gauge was also adopted by the first United States railroads When new locomotive construction began in the United States in 1831 some new railroads opted for a different gauge resulting in breaks of gauge as railroads began to be joined Apart from freight reloading issues another result was that new locomotives for some of these railroads had to be delivered on flatcars The 4 4 0 played a major role in the development of rail transport in the United States Some of the notable 4 4 0 locomotives that saw service on United States railroads are The General built in 1855 by Rogers Ketchum amp Grosvenor in Paterson New Jersey was the fleeing locomotive during the Great Locomotive Chase of the American Civil War 19 20 An AT amp SF 4 4 0 on a passenger train across Kansas c 1895 The Texas built in 1856 by Danforth Cooke amp Company in Paterson New Jersey was the pursuing locomotive during much of the Great Locomotive Chase 21 22 The Jupiter Central Pacific Railroad s No 60 built by Schenectady Locomotive Works of New York in September 1868 was one of the two locomotives to meet at Promontory Summit during the Golden Spike ceremony upon the completion of the First American Transcontinental Railroad on May 10 1869 23 Union Pacific No 119 built by Rogers Locomotive amp Machine Works of Paterson New Jersey in 1868 was the other locomotive at Promontory Summit on May 10 1869 24 The Virginia amp Truckee Railroad s Dayton built in 1873 by the Central Pacific Railroad had the honor of opening the branch line between Carson City and Minden in Nevada in 1906 25 The New York Central and Hudson River Railroad no 999 built in 1893 to haul the railroad s Empire State Express is believed to have been the first in the United States to travel at a speed of more than 100 miles per hour 160 kilometres per hour 26 27 Walt Disney World Railroad No 4 Roy O Disney was built in February 1916 by the Baldwin Locomotive Works originally as No 66 later No 251 in the 1960s for the Ferrocarriles Unidos de Yucatan in Mexico It now operates on the railroad circling the Magic Kingdom in Orlando Florida 28 Pennsylvania Railroad class D6 4 4 0 No 317 built in 1881 By 1910 the 4 4 0 was considered obsolete being replaced by Mikados Pacifics and other larger engines although they continued to serve to an extent into the 1950s The last 4 4 0 to be built was a diminutive Baldwin product for the United Railways of Yucatan in 1945 Fewer than forty 4 4 0s survive in preservation in the United States reproductions excluded 1 Ferrocarriles Unidos de Yucatan No 66 ca 1953 Between 1959 and 1989 the Crown Metal Products Company of Wyano Pennsylvania built live steam reproductions of classic 4 4 0 designs for use by amusement parks The largest of these of which 18 were produced ran on 3 ft 914 mm narrow gauge track Most are patterned after 19th century American designs but those produced for Busch Gardens have European styling Many of these continue to see daily operation at parks such as Kings Island Worlds of Fun and the Omaha Zoo Railroad at Omaha s Henry Doorly Zoo amp Aquarium Operational historic locomotives EditNorth America Edit There are a handful of full size 4 4 0 steam locomotives built prior to 1945 that are still operating in the US and Canada 29 30 The following is a list of locations with at least one working example and tracks on which to run it Location Address Road number s Name s Track gauge Number of 4 4 0s Year s built NotesDan Markoff private residence Las Vegas Nevada US 4 Eureka 3 ft 914 mm 1 1875 It retained its original boiler Nevada State Railroad Museum Carson City Nevada US 22 Inyo 4 ft 8 1 2 in 1 435 mm 1 1875 Appeared in over twenty Hollywood WesternsPrairie Dog Central Railway Winnipeg Manitoba Canada 3 4 ft 8 1 2 in 1 435 mm 1 1882South Simcoe Railway Tottenham Ontario Canada 136 4 ft 8 1 2 in 1 435 mm 1 1883Walt Disney World Railroad Magic Kingdom Bay Lake Florida US 4 Roy O Disney 3 ft 914 mm 1 1916 Significantly altered from its original appearance to resemble steam locomotives from the 1880s 31 Weiser Railroad Greenfield Village Dearborn Michigan US 1 Edison 7 4 ft 8 1 2 in 1 435 mm 2 1870 1897 The steam locomotive built in 1870 was originally an 0 4 0 it was rebuilt as a 4 4 0 in 1932 by the Ford Motor Company 32 Wilmington amp Western Railroad Marshallton Delaware US 98 4 ft 8 1 2 in 1 435 mm 1 1909References Edit a b c d e f g h i j k White John H Jr 1968 A history of the American locomotive its development 1830 1880 New York Dover Publications pp 46 ISBN 0 486 23818 0 Kinert Reed 1962 Early American steam locomotives 1st seven decades 1830 1900 Seattle WA Superior Publishing Company Trains magazine June 1946 Richard Marshall A history of Britain s broad gauge railways Archived from the original on 2011 07 23 Retrieved 2010 05 02 Marsden Richard The London amp North Eastern Railway LNER Encyclopedia William Bouch Archived from the original on 7 July 2007 Retrieved 2007 06 11 a b c Poultney Edward Cecil 1952 British express locomotive development 1896 1948 London Allen amp Unwin pp 56 65 Oberg Leon 1975 Locomotives of Australia Sydney London Reed Australian Railway Historical Society A Century Plus of Locomotives New South Wales Railways 1855 1965 ARHS Sydney 1965 Victorian Railways Power Parade 1854 1954 Victorian Railways 1954 a b c d e f g h i Paxton Leith Bourne David 1985 Locomotives of the South African Railways 1st ed Cape Town Struik pp 15 18 103 104 ISBN 0869772112 a b c d Baxter Antony The Two Foot Gauge Enigma 1st ed Plateway Press pp 37 45 amp Appendix V ISBN 1 871980 34 8 a b Pattison R G 2005 Thundering Smoke 1st ed Sable Publishing House ISBN 0 9549488 1 5 a b c Railway Modelling Scene South Africa May June 1985 article written by Neill Mardell a b c d e f g h i j k l Holland D F 1971 Steam Locomotives of the South African Railways Vol 1 1859 1910 1st ed Newton Abbott England David amp Charles pp 20 22 25 26 30 31 35 39 59 61 76 77 80 83 106 108 ISBN 978 0 7153 5382 0 The Natal Mercury of 12 January 1876 a b c C G R Numbering Revised Article by Dave Littley SA Rail May June 1993 pp 94 95 Reed P J T February 1953 White D E ed The Locomotives of the Great Western Railway Part 2 Broad Gauge Kenilworth RCTS pp B21 B23 ISBN 0 901115 32 0 Maunsell Railway Society 4 4 0 locomotive Stowe Archived from the original on 2016 03 22 Retrieved 2006 02 18 Moshein Peter Rothfus Robert R 1992 Rogers locomotives A brief history and construction list Railroad History 167 13 147 Bonds Russell S 2007 Stealing the General The Great Locomotive Chase and the First Medal of Honor Yardley Pennsylvania Westholme Publishing pp 94 95 ISBN 978 1 59416 033 2 The Great Locomotive Chase Archived from the original on 2012 06 17 Retrieved 2012 09 28 Texas Information Page Everlasting Steam The Story of Jupiter and No 119 Union Pacific s 119 Archived from the original on 2011 09 30 Koenig Karl R 1980 Virginia amp Truckee Locomotives Chatham Publishing pp 58 65 ISBN 0 89685 102 8 Fleet wheeled wonder New York Central amp Hudson River Railroad s no 999 by Kevin V Bunker Empire State Express No 999 Genesee County New York Archived from the original on December 30 2005 Retrieved March 1 2006 Broggie Michael 2014 Walt Disney s Railroad Story The Small Scale Fascination That Led to a Full Scale Kingdom 4th ed The Donning Company Publishers pp 320 323 393 394 ISBN 978 1 57864 914 3 Surviving Steam Locomotive Search US Surviving Steam Locomotive Search Canada Leaphart David 2016 Walt Disney World Railroads Part 3 Yucatan Jewels 1st ed Steel Wheel on Steel Rail Studio p 106 ISBN 978 1 5330 3707 7 Greenfield Village Perimeter Railroad from concept to realityExternal links Edit Wikimedia Commons has media related to 4 4 0 locomotives Trains portalBuilding a 1 8 scale Live Steam 4 4 0 locomotive This site includes a full 1875 shop drawing of a Baldwin 4 4 0 Winchester Clarence ed 1936 A famous locomotive type Railway Wonders of the World pp 1173 79 illustrated account of the development of the 4 4 0 in Britain Retrieved from https en wikipedia org w index php title 4 4 0 amp oldid 1126873466, wikipedia, wiki, book, books, library,

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