The minimum railway curve radius is the shortest allowable design radius for the centerline of railway tracks under a particular set of conditions. It has an important bearing on construction costs and operating costs and, in combination with superelevation (difference in elevation of the two rails) in the case of

train tracks A railway track (British English and UIC terminology) or railroad track (American English), also known as permanent way or simply track, is the structure on a railway or railroad consisting of the rails, fasteners, railroad ties (sleepers, ...

, determines the maximum safe speed of a curve. The minimum radius of a curve is one parameter in the design of railway vehicles as well as

tram A tram (called a streetcar or trolley in North America) is a rail vehicle that travels on tramway tracks on public urban streets; some include segments on segregated right-of-way. The tramlines or networks operated as public transport are ...

monorail A monorail (from "mono", meaning "one", and " rail") is a railway in which the track consists of a single rail or a beam. Colloquially, the term "monorail" is often used to describe any form of elevated rail or people mover. More accurat ...

s and automated guideways are also subject to a minimum radius.

History

The first proper railway was the

Liverpool and Manchester Railway The Liverpool and Manchester Railway (L&MR) was the first inter-city railway in the world. It opened on 15 September 1830 between the Lancashire towns of Liverpool and Manchester in England. It was also the first railway to rely exclusively ...

, which opened in 1830. Like the tram roads that had preceded it over a hundred years, the L&M had gentle curves and

gradients In vector calculus, the gradient of a scalar-valued differentiable function of several variables is the vector field (or vector-valued function) \nabla f whose value at a point p is the "direction and rate of fastest increase". If the grad ...

. Reasons for these gentle curves include the lack of strength of the track, which might have overturned if the curves were too sharp causing derailments. The gentler the curves, the greater the visibility, thus boosting safety via increased situational awareness. The earliest

rails Rail or rails may refer to: Rail transport *Rail transport and related matters *Rail (rail transport) or railway lines, the running surface of a railway Arts and media Film * ''Rails'' (film), a 1929 Italian film by Mario Camerini * ''Rail'' ( ...

were made in short lengths of

wrought iron Wrought iron is an iron alloy with a very low carbon content (less than 0.08%) in contrast to that of cast iron (2.1% to 4%). It is a semi-fused mass of iron with fibrous slag inclusions (up to 2% by weight), which give it a wood-like "grain" ...

, which does not bend like later steel rails introduced in the 1850s.

Factors affecting the minimum curve radius

Minimum curve radii for railways are governed by the speed operated and by the mechanical ability of the rolling stock to adjust to the curvature. In North America, equipment for unlimited interchange between railway companies is built to accommodate for a radius, but normally a radius is used as a minimum, as some freight carriages (freight cars) are handled by special agreement between railways that cannot take the sharper curvature. For the handling of long freight trains, a minimum radius is preferred. The sharpest curves tend to be on the narrowest of

narrow gauge A narrow-gauge railway (narrow-gauge railroad in the US) is a railway with a track gauge narrower than standard . Most narrow-gauge railways are between and . Since narrow-gauge railways are usually built with tighter curves, smaller structu ...

railways, where almost all the equipment is proportionately smaller.

Jane's World Railways ''Jane's World Railways'' is a directory of railway activities worldwide. It is published annually by Jane's Information Group. Janes World Railways (JWR) provides details on railway systems and operators, manufacturers of equipment, technology ...

1995-1996 p728 But standard gauge can also have tight curves, if rolling stocks are built for it, which however removes the standardisation benefit of standard gauge. Tramways can have below curve radius.

Steam locomotives

As the need for more powerful steam locomotives grew, the need for more driving wheels on a longer, fixed wheelbase grew too. But long wheel bases do not cope well with curves of a small radius. Various types of

articulated locomotive An articulated locomotive is a steam locomotive (rarely, an electric locomotive) with one or more engine units that can move independent of the main frame. Articulation allows the operation of locomotives that would otherwise be too large to neg ...

s (e.g., Mallet, Garratt, and Shay) were devised to avoid having to operate multiple locomotives with multiple crews. More recent diesel and electric locomotives do not have a wheelbase problem, as they have flexible

bogies A bogie ( ) (in some senses called a truck in North American English) is a chassis or framework that carries a wheelset, attached to a vehicle—a modular subassembly of wheels and axles. Bogies take various forms in various modes of transp ...

, and also can easily be operated in multiple with a single crew. *The

Tasmanian Government Railways K class The Tasmanian Government Railways K class was a class of 0-4-0+0-4-0 Garratt articulated steam locomotives operated by the Tasmanian Government Railways from 1909 – the first Garratt locomotives built. Overview Although considered the first ...

was ** gauge ** radius curves *Example Garratt ** **

**Main line radius - **Siding radius - *0-4-0 ** GER Class 209 **

Couplings

Not all couplers can handle very short radii. This is particularly true of the European

buffer and chain coupler Buffers and chain couplers (also known as "buffers and screw", "screw", "screwlink", and "English" couplers) are the de facto UIC standard railway stock coupling used in the EU and UK, and on some surviving former colonial railways, such as in ...

s, where the buffers extend the length of the rail car body. For a line with a maximum speed of , buffer-and-chain couplers increase the minimum radius to around . As narrow-gauge railways,

ways, and

rapid transit Rapid transit or mass rapid transit (MRT), also known as heavy rail or metro, is a type of high-capacity public transport generally found in urban areas. A rapid transit system that primarily or traditionally runs below the surface may be ...

systems normally do not interchange with mainline railways, instances of these types of railway in Europe often use bufferless central couplers and build to a tighter standard.

Train lengths

A long heavy freight train, especially those with wagons of mixed loading, may struggle on short radius curves, as the

drawgear A coupling (or a coupler) is a mechanism typically placed at each end of a railway vehicle that connects them together to form a train. A variety of coupler types have been developed over the course of railway history. Key issues in their desig ...

forces may pull intermediate wagons off the rails. Common solutions include: * marshaling light and empty wagons at the rear of the train * intermediate locomotives, including remotely controlled ones * easing curves * reduced speeds * reduced cant (superelevation), at the expense of fast passenger trains * more, shorter trains * equalizing wagon loading (often employed on

unit train A unit train, also called a block train or a trainload service, is a train in which all cars (wagons) carry the same commodity and are shipped from the same origin to the same destination, without being split up or stored en route. They are dist ...

s) * better driver training * driving controls that display drawgear forces *

Electronically Controlled Pneumatic Electronically controlled pneumatic brakes are a type of modern railway braking system which offer improved performance compared to traditional railway air brakes. Overview Traditional train braking systems use pneumatic valves to control and ...

brakes A similar problem occurs with harsh changes in gradients (vertical curves).

Speed and cant

As a heavy train goes around a bend at speed, the centripetal force may cause negative effects: passengers and cargo may experience unpleasant forces, the inside and outside rails will wear unequally, and insufficiently anchored tracks may move. To counter this, a

cant Cant, CANT, canting, or canted may refer to: Language * Cant (language), a secret language * Beurla Reagaird, a language of the Scottish Highland Travellers * Scottish Cant, a language of the Scottish Lowland Travellers * Shelta or the Cant, a la ...

(superelevation) is used. Ideally, the train should be tilted such that

resultant force In physics and engineering, a resultant force is the single force and associated torque obtained by combining a system of forces and torques acting on a rigid body via vector addition. The defining feature of a resultant force, or resultant for ...

acts vertically downwards through the bottom of the train, so the wheels, track, train and passengers feel little or no sideways force ("down" and "sideways" are given with respect to the plane of the track and train). Some trains are capable of tilting to enhance this effect for passenger comfort. Because freight and passenger trains tend to move at different speeds, a cant cannot be ideal for both types of rail traffic. The relationship between speed and tilt can be calculated mathematically. We start with the formula for a balancing centripetal force: ''θ'' is the angle by which the train is tilted due to the cant, ''r'' is the curve radius in meters, ''v'' is the speed in meters per second, and ''g'' is the standard gravity, approximately equal to 9.81 m/s²: :

\tan\theta=\frac

Rearranging for ''r'' gives: :

r=\frac

Geometrically, tan ''θ'' can be expressed (using the

Small-angle approximation The small-angle approximations can be used to approximate the values of the main trigonometric functions, provided that the angle in question is small and is measured in radians: : \begin \sin \theta &\approx \theta \\ \cos \theta &\approx 1 - \ ...

) in terms of the

track gauge In rail transport, track gauge (in American English, alternatively track gage) is the distance between the two rails of a railway track. All vehicles on a rail network must have wheelsets that are compatible with the track gauge. Since many ...

''G'', the

''h_a'' and cant deficiency ''h_b'', all in millimeters: :

\tan\theta\approx\sin\theta=\frac

This approximation for tan ''θ'' gives: :

r=\frac=\frac

This table shows examples of curve radii. The values used when building high-speed railways vary, and depend on desired wear and safety levels. Tramways typically do not exhibit cant, due to the low speeds involved. Instead, they use the outer grooves of rails as a guide in tight curves.

Transition curves

A curve should not become a straight all at once, but should gradually increase in radius over time (a distance of around 40m-80m for a line with a maximum speed of about 100 km/h). Even worse than curves with no transition are

reverse curve In civil engineering, a reverse curve (or "S" curve) is a section of the horizontal alignment of a highway or railroad route in which a curve to the left or right is followed immediately by a curve in the opposite direction. On highways in the ...

s with no intervening straight track. The superelevation must also be transitioned. Higher speeds require longer transitions.

Vertical curves

As a train negotiates a curve, the force it exerts on the track changes. Too tight a 'crest' curve could result in the train leaving the track as it drops away beneath it; too tight a 'trough' and the train will plough downwards into the rails and damage them. More precisely, the support force ''R'' exerted by the track on a train as a function of the curve radius ''r'', the train mass , and the speed , is given by :

R=mg\plusmn\frac

with the second term positive for troughs, negative for crests. For passenger comfort the ratio of the

gravitational acceleration In physics, gravitational acceleration is the acceleration of an object in free fall within a vacuum (and thus without experiencing drag). This is the steady gain in speed caused exclusively by the force of gravitational attraction. All bodi ...

''g'' to the

centripetal acceleration In mechanics, acceleration is the rate of change of the velocity of an object with respect to time. Accelerations are vector quantities (in that they have magnitude and direction). The orientation of an object's acceleration is given by th ...

''v²/r'' needs to be kept as small as possible, else passengers will feel large changes in their weight. As trains cannot climb steep slopes, they have little occasion to go over significant vertical curves. However, high-speed trains are sufficiently high-powered that steep slopes are preferable to the reduced speed necessary to navigate horizontal curves around obstacles, or the higher construction costs necessary to tunnel through or bridge over them. High Speed 1 (section 2) in the UK has a minimum vertical curve radius of and

High Speed 2 High Speed 2 (HS2) is a planned high-speed railway line in England, the first phase of which is under construction in stages and due for completion between 2029 and 2033, depending on approval for later stages. The new line will run from its m ...

, with the higher speed of , stipulates much larger radii. In both these cases the experienced change in weight is less than 7%. Rail

well car A well car, also known as a double-stack car (or also intermodal car/container car), is a type of railroad car specially designed to carry intermodal containers (shipping containers) used in intermodal freight transport. The "well" is a depresse ...

s also risk low clearance at the tops of tight crests.

Problem curves

* The Australian Standard Garratt had flangeless leading driving wheels that tended to cause derailments on sharp curves. * Sharp curves on the Port Augusta to Hawker line of the

South Australian Railways South Australian Railways (SAR) was the statutory corporation through which the Government of South Australia built and operated railways in South Australia from 1854 until March 1978, when its non-urban railways were incorporated into Aust ...

caused derailment problems when bigger and heavier X class locomotives were introduced, requiring realignments to ease the curves. * curves on the

Oberon Oberon () is a king of the fairies in medieval and Renaissance literature. He is best known as a character in William Shakespeare's play ''A Midsummer Night's Dream'', in which he is King of the Fairies and spouse of Titania, Queen of the Fairi ...

Batlow Batlow is a town in the South West Slopes region of New South Wales, Australia, on the edge of the Great Dividing Range, 775 m above sea level. Batlow is well known for its apples. About 50 growers in the district supply 1.6 million cas ...

, and Dorrigo lines, New South Wales limited steam locomotives to the 0-6-0 19 class.

List of selected minimum curve radii

References

External links

* {{Railway track layouts Track geometry