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Template:Sidebar track gauge

File:IndianGauges.JPG

Narrow and Broad gauge tracks

Track gauge or rail gauge is the distance between the inner sides of the heads of the two load bearing rails that make up a single railway line. Sixty percent of the world's railways use a standard gauge of 1,435 mm (4 ft 8½ in). Wider gauges are called broad gauge; smaller gauges, narrow gauge. Break-of-gauge refers to the meeting of different gauges. Some stretches of track are dual gauge, with three or four rails, allowing trains of different gauges to share them. Gauge conversion can resolve break-of-gauge problems. An exception of a railway with no gauge is monorail where there is only one supporting rail. Some electrified railways use non load bearing third rail and occasionally a fourth rail. These additional rails are positioned between or outside the “running rails” to feed and return electrical current; they do not define the rail gauge.

Gauge tolerances specify how much the actual gauge may vary from the nominal gauge. For example, the U.S. Federal Railroad Administration specifies that the actual gauge of track that is rated for a maximum of 60 mph (Template:Convert/outsep) must be between 4 ft 8 in (1,422 mm) and 4 ft 9½ in (1,460 mm).[1]

A track gauge is also the measuring device used to test whether rails are within the correct gauge.

Dominant gauges[]

ft′ in″ mm
5′ 6″ 1676
5′ 5Template:Fraction 1668
5′ 3″ 1600
5′ 1524
4′ 11Template:Fraction 1520
4′ 8½″ 1435
4′ 6″ 1372
3′ 6″ 1067
3′ 5Template:Fraction 1050
3′ 3Template:Fraction 1000
3′ 1Template:Fraction 950
3′ 914
2′ 6″ 762
2′ 5Template:Fraction 750
2′ 610
1′ 11Template:Fraction 600
File:Rail gauge world.png

The dominant rail gauge in each country shown


Template:Further

Gauge Name Installation (km) Installation (miles) Usage
{{#switch:1676 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Indian gauge Template:Convert/LoffAoffDtableSoff India (Template:Convert/LoffAonDsSoff; increasing with Project Unigauge), Pakistan, Argentina Template:Convert/LoffAonDsSoff, Chile, Sri Lanka Template:Convert/LoffAonDsSoff
(approx. 6.67% of the world's railways)
{{#switch:1668 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Iberian gauge Template:Convert/LoffAoffDtableSoff Portugal, Spain. In Spain as of the Iberian gauge Template:Convert/LoffAonDsSoff are of three-rail dual Iberian and standard gauges, more to come in the future
{{#switch:1600 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Irish gauge Template:Convert/LoffAoffDtableSoff Ireland (Template:Convert/LoffAonDsSoff), and in Australia mainly Victoria and some South Australia Victorian gauge (Template:Convert/LoffAonDsSoff), Brazil (Template:Convert/LoffAonDsSoff)
{{#switch:1524 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Russian gauge Template:Convert/LoffAoffDtableSoff Finland (contiguous to and generally compatible with {{#switch:1520 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in))
{{#switch:1520 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Russian gauge Template:Convert/LoffAoffDtableSoff CIS states, also Estonia, Georgia, Latvia, Lithuania, Mongolia
(approx. 17% of the world's railways; all contiguous — redefined from {{#switch:1524
3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in))
{{#switch:1435 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Standard gauge Template:Convert/LoffAoffDtableSoff Europe, Argentina, United States, Canada, China, Korea (South), Korea (North), Australia, Indonesia (only at Aceh), Middle East, North Africa, Mexico, Cuba, Panama, Venezuela, Peru, Uruguay and Philippines. Also high-speed lines in Japan, Taiwan and Spain.
(approx. 60% of the world's railways)
{{#switch:1067 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Cape gauge Template:Convert/LoffAoffDtableSoff Southern and Central Africa, Indonesia, Japan, Taiwan, Philippines, New Zealand, Queenslan Australia Queensland Rail
(approx. 9% of the world's railways)
{{#switch:1000 3mm=3 mm (0.118 in) 4mm=4 mm (0.157 in) 4.5mm=4.5 mm (0.177 in) 4.8mm=4.8 mm (0.189 in) 6.5mm=6.5 mm (0.256 in) 6.53mm=6.53 mm (0.257 in) 8mm=8 mm (0.315 in) 8.97mm=8.97 mm (0.353 in) 9mm=9 mm (0.354 in) 9.42mm=9.42 mm (0.371 in) 10.5mm=10.5 mm (0.413 in) 11.94mm=11.94 mm (0.470 in) 12mm=12 mm (0.472 in) 12.7mm=12.7 mm (0.5 in) 13mm=13 mm (0.512 in) 13.5mm=13.5 mm (0.531 in) 14mm=14 mm (0.551 in) 14.125mm=14.125 mm (0.556 in) 14.2mm=14.2 mm (0.559 in) 14.28mm=14.28 mm (0.562 in) 14.3mm=14.3 mm (0.563 in) 15.76mm=15.76 mm (0.620 in) Metre gauge Template:Convert/LoffAoffDtableSoff SE Asia, India (Template:Convert/LoffAonDsSoff, decreasing with Project Unigauge), Argentina (Template:Convert/LoffAonDsSoff), Brazil (Template:Convert/LoffAonDsSoff), Bolivia, northern Chile, Switzerland (RhB, MOB, BOB, MGB), East Africa
(approx. 7% of the world's railways)

History[]

Historically, the choice of gauge was partly arbitrary and partly a response to local conditions. Narrow-gauge railways are cheaper to build and can negotiate sharper curves but broad-gauge railways give greater stability and permit higher speeds.

Sometimes railway companies chose their own gauge, such as the Great Western Railway choosing {{#switch:2140

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in).

Other times, statutes required railways to use a particular gauge, such as the Thomasville, Tallahassee and Gulf Railroad having to use standard gauge.

Early origins of the standard gauge[]

There is an urban legend that Julius Caesar specified a legal width for chariots at the width of standard gauge, causing road ruts at that width, so all later wagons had to have the same width or else risk having one set of wheels suddenly fall into one deep rut but not the other.[2][3]

In fact, the origins of the standard gauge considerably pre-date the Roman Empire, and may even pre-date the invention of the wheel. The width of prehistoric vehicles was determined by a number of interacting factors which gave rise to a fairly standard vehicle width of a little under Template:Convert/m. These factors have changed little over the millennia, and are still reflected in today's motor vehicles. Road rutting was common in early roads, even with stone pavements. The initial impetus for the ruts probably came from the grooves made by sleds and slide cars dragged over the surfaces of ancient trackways. Since early carts had no steering and no brakes, negotiating hills and curves was dangerous, and cutting ruts into the stone helped them negotiate the hazardous parts of the roads.[4]

Neolithic wheeled carts found in Europe had gauges varying from Template:Convert/to. By the Bronze age, wheel gauges appeared to have stabilized between Template:Convert/to which was attributed to a tradition in ancient technology which was perpetuated throughout European history.[5] The ancient Assyrians, Babylonians, Persians and Greeks constructed roads with artificial wheelruts cut in rock spaced the wheelspan of an ordinary carriage. Such ancient stone rutways connected major cities with sacred sites, such as Athens to Eleusis, Sparta to Ayklia, or Elis to Olympia. The gauge of these stone grooves was Template:Convert/to. The largest number of preserved stone trackways, over 150, are found on Malta.[6]

Some of these ancient stone rutways were very ambitious. Around 600 BC the citizens of ancient Corinth constructed the Diolkos, which some consider the world's first railway, a hard poros limestone road with grooved tracks along which large wooden flatbed cars carrying ships and their cargo were pulled by slaves or draft animals. The grooves were at Template:Convert/m centres.[7]

The Roman Empire actually made less use of stone trackways than the prior Greek civilization because the Roman roads were much better than those of previous civilizations. However, there is evidence that the Romans used a more or less consistent wheel gauge adopted from the Greeks throughout Europe, and brought it to England with the Roman conquest of Britain in AD 43. After the Roman departure from Britain, this more-or-less standard gauge continued in use, so the wheel gauge of animal drawn vehicles in 19th century Britain was Template:Convert/to. In 1814 George Stephenson copied the gauge of British coal wagons in his area (about Template:Convert/m) for his new locomotive, and for technical reasons widened it slightly to achieve the modern railway standard gauge of Category:Aldwych Branch The Short Streach Of Line Between Holborn And Aldwych Was Closed In 1994.The Line Was Due To be extended to Waterloo but never was.There will be a bit of Aldwych In My Website when added.[4]

Standard gauge[]

Main article: Standard gauge

What became the standard gauge of {{#switch:56.5

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) was chosen for the first main-line railway, the Liverpool and Manchester Railway (L&MR), by the British engineer George Stephenson; the de facto standard for the colliery railways where Stephenson had worked was {{#switch:56
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in).  Whatever the origin of the gauge, it seemed to be a satisfactory choice: not too narrow and not too wide.

Isambard Kingdom Brunel, engineer of the Great Western Railway, chose the broader gauge of {{#switch:84

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) because it offered greater stability and capacity at high speed.  Brunel's first locomotives were exactly 7 foot gauge and had no slack, hence the extra quarter inch.  The Eastern Counties Railway chose {{#switch:60
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) gauge, but soon realised that lack of compatibility was a mistake and changed to Stephenson's gauge.  The conflict between Brunel and Stephenson is often referred to as the Gauge War. Several non-interconnecting lines in Scotland were {{#switch:66
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) but were changed to standard gauge for compatibility reasons.

In 1845 a British Royal Commission recommended adoption of {{#switch:56.5

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) as standard gauge in Great Britain, {{#switch:63
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) in Ireland. The following year the Parliament of the United Kingdom passed the Gauge Act, which required that new railways use the standard gauge. Except for the Great Western Railway's broad gauge, few main-line railways in Great Britain used a different gauge. The last Great Western line was converted to standard gauge in 1892.
File:Different gauges in China Railway Museum.jpg

Different gauges, from left: 1435mm, 1000mm and 600mm, on display at the China Railway Museum in Beijing

Broad gauge[]

Main article: Broad gauge

Broad gauge refers to any gauge wider than standard gauge or {{#switch:sg

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in). Russian, Indian, Irish, and Iberian gauges are all broad gauges. Broad gauge railways are also common for cranes in docks for short distances. Broad gauge is used to provide better stability or to prevent the easy transfer of rolling stock from railroads of other countries for political or military reasons.

Narrow gauge[]

Main article: Narrow gauge railway

In many areas narrow gauge railways have been built. As the gauge of a railway is reduced the costs of construction can also be reduced since narrow gauges allow a smaller radius curves allowing obstacles to be avoided rather than having to be built over or through (valleys and hills); the reduced cost is particularly noticeable in mountainous regions. For example, many narrow gauge railways were built in Wales and the Rocky Mountains of North America. The disadvantage of tight turns and steep gradients is a reduced line speed and smaller trains leading to higher operating costs. Many narrow gauge railways have been abandoned or converted to standard gauge. Industrial railways are often constructed using narrow gauge. Sugar cane and banana plantations are often served by narrow gauges such as {{#switch:2ft

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in), as there is little through-traffic to other systems.

The most widely used narrow gauges are

  • {{#switch:1067
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) Cape gauge (e.g. Southern and Central Africa, Indonesia, Japan, Taiwan, Philippines, parts of Australia, New Zealand, Honduras and Costa Rica.)
  • {{#switch:1000
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) metre gauge (e.g. SE Asia, 17,000 km (Template:Convert/mi) in India, but gauge conversion with Project Unigauge, East Africa, South America)
  • {{#switch:762
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) (e.g. in Sri Lanka Kelani Velley and Udapussellawa lines. All of this gauge tracks were converted into {{#switch:1676
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in))

There are also minimum gauge railways.

Measurement and units[]

An 1845 Act of Parliament[8] fixed British track gauges at 4 ft 8½ in and Irish track gauges at 5 ft 3 in. The 4 ft 8½ in gauge was the basis of 60 % of the world's railways, but is expressed as 1435 mm (including the United Kingdom[9]) - a decrease of 0.1 mm, but well within the engineering tolerances. The Irish 5 ft 3 in gauge is now referred to as a 1600 mm gauge – the difference between the metric and imperial values being 0.2 mm, again well within engineering tolerances.

Break of gauge[]

Main article: Break-of-gauge

When a railway line of one gauge meets a line of another gauge there is a break of gauge. A break of gauge adds cost and inconvenience to traffic that passes from one system to another.

An example of this is on the Transmongolian Railway, where Russia and Mongolia use broad gauge while China uses standard gauge. At the border, each carriage has to be lifted in turn to have its bogies changed. The whole operation, combined with passport and customs control, can take several hours.

Other examples include crossings into or out of the former Soviet Union: Ukraine/Slovakia border on the Bratislava-L'viv train, and from the Romania/Moldova border on the Chişinău-Bucharest train.[10]

This can be avoided however by implementing a system similar to that used in Australia, where some lines between states using different gauges were converted to dual gauge with three rails, one set of two forming a standard gauge line, with the third rail either inside or outside the standard set forming rails at either narrow or broad gauge. As a result, trains built to either gauge can use the line. However gauges must differ a minimum of twice the width of a rail to allow such a system.

Dual gauge[]

Main article: Dual gauge

Dual gauge allows trains of different gauges to share the same track. This can save considerable expense compared to using separate tracks for each gauge, but introduces complexities in track maintenance and signalling, as well as requiring speed restrictions for some trains. If the difference between the two gauges is large enough, for example between {{#switch:1435

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) and {{#switch:3ft6in
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in), three-rail dual-gauge is possible, but if the difference is not large enough, for example between {{#switch:3ft6in
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) and {{#switch:1
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in), four-rail dual-gauge is used. Dual-gauge rail lines are used in the railway networks of Switzerland, Australia, Argentina, Brazil, North Korea, Spain, Tunisia and Vietnam.

When a third rail was proposed to allow dual gauge between Irish gauge and Standard gauge in Australia, the gauge difference of 6.5 inches was considered too small to allow the third rail to operate safely.[11]

Variable gauge axles[]

Main article: Variable gauge

Variable gauge axles (VGA), developed by the Talgo company and Construcciones y Auxiliar de Ferrocarriles (CAF) of Spain, amongst others, enable trains to change gauge with only a few minutes spent in the gauge conversion process. The same system is also used between China and Central Asia, and Poland and Ukraine (SUW 2000 and INTERGAUGE variable axles system).[12][citation needed] China and Poland are standard gauge, while Central Asia and Russia are {{#switch:1520mm

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) gauge.

Designed for conversion[]

Equipment can be designed for easy conversion, such as the Garratt locomotives on the Kenya and Uganda Railway designed for conversion from {{#switch:1000

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) to {{#switch:1067
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in).[13] Several classes of steam locomotives of the Victorian Railways were designed for easy conversion from {{#switch:1600
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) to {{#switch:1435
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in).  Only one, R766, a preserved historic locomotive, has actually been converted.

Temporary Way[]

The Permanent Way is so called because there is often a "Temporary Way" used for construction purposes and which is replaced by the "Permanent Way" when construction of the right of way nears completion.

The actual gauge of this temporary way is poorly documented, but it would generally be narrower than the permanent gauge.

In restricted spaces such as tunnels, the temporary way might be double track, even though the tunnel will ultimately be single track. Thus the Airport Rail Link in Sydney had construction trains of {{#switch:900

|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) gauge which were replaced by the permanent tracks of {{#switch:1435
|3mm=3 mm (0.118 in)
|4mm=4 mm (0.157 in)
|4.5mm=4.5 mm (0.177 in)
|4.8mm=4.8 mm (0.189 in)
|6.5mm=6.5 mm (0.256 in)
|6.53mm=6.53 mm (0.257 in)
|8mm=8 mm (0.315 in)
|8.97mm=8.97 mm (0.353 in)
|9mm=9 mm (0.354 in)
|9.42mm=9.42 mm (0.371 in)
|10.5mm=10.5 mm (0.413 in)
|11.94mm=11.94 mm (0.470 in)
|12mm=12 mm (0.472 in)
|12.7mm=12.7 mm (0.5 in)
|13mm=13 mm (0.512 in)
|13.5mm=13.5 mm (0.531 in)
|14mm=14 mm (0.551 in)
|14.125mm=14.125 mm (0.556 in)
|14.2mm=14.2 mm (0.559 in)
|14.28mm=14.28 mm (0.562 in)
|14.3mm=14.3 mm (0.563 in)
|15.76mm=15.76 mm (0.620 in) gauge.

The narrower the temporary way, the quicker it can be built. During World War II, it was proposed to expedite a Yunnan-Burma railway using a tiny "toy" 1 ft 3.3in gauge, since such a small gauge can have the tightest of curves in difficult terrain.[14]

The professional body for track designers and installers is called the Permanent Way Institution.

See also[]

  • List of rail gauges
  • Loading gauge
  • Structure gauge
  • Rail terminology
  • Longest trains
  • Rail transport by country
  • History of rail transport by country
  • Breitspurbahn
  • Gauge conversion
  • Heaviest trains
  • Minimum railway curve radius
  • Third rail
  • Rail transport modelling scales
  • Model railway scales

References[]

  1. Track Safety Standards Compliance Manual Chapter 5 Track Safety Standards Classes 1 through 5. Federal Railroad Administration. Retrieved on 26 February 2010.
  2. Horse's Pass. Retrieved on 17 October 2009.
  3. Was standard railroad gauge (4'8½") determined by Roman chariot ruts?. Retrieved on 17 October 2009.
  4. 4.0 4.1 Lay, M. G. (1999). Ways of the World: A History of the World's Roads and of the Vehicles That Used Them. Rutgers University Press, 34–37. ISBN 0-8135-2691-4. 
  5. Hughes, Karel J. (1999). "Persistent Features from a Palaeo-Landscape: The Ancient Tracks of the Maltese Islands". The Geographical Journal 165 (1): 62–78. The Royal Geographical Society. Retrieved on 26 October 2009. 
  6. Forbes, Robert James (1993). Studies in ancient technology, Volume 5. Brill Archive. ISBN 90-04-00622-2. 
  7. Template:Citation/core
  8. An Act for regulating the Gauge of Railways (18 October 1846). Retrieved on 26 April 2010.
  9. Guidance on Gauging. Rail Safety and Standards Board Limited (3 October 2009). Retrieved on 26 April 2010.
  10. Beyond Thunderdome: Iron Curtain 2k6. Retrieved on 2007-10-10.
  11. Template:Cite news
  12. Experience and results of operation the SUW 2000 system in traffic corridors
  13. http://www.garrattmaker.com/history.html
  14. Template:Cite news

External links[]

Template:Commons category

Template:Navbox track gauge Template:Rail tracks


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