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Wagonways are the horses, equipment, and tracks used for hauling wagons which preceded steam powered railways. The idea of using "tracked" roads is at least 2000 years old, quarries in
Greece, Malta, and the Roman Empire used cut stone tracks to haul loads pulled by animals. Around 1550
German miners used wooden rails and pushcarts with flanged wheels to move ore from the mines. In 1604 a wagonway was built to transport coal from the mines at Wollaton to Nottingham, England.
Wagonways improved coal transport by allowing one horse to deliver between 10 to 13 tons of coal per run - an approximate
fourfold increase. Wagonways were usually designed to carry the fully loaded wagons downhill to a canal or boat dock and then
return the empty wagons back to the mine.
At the beginning of the industrial revolution in the
18th century, the rails were made of wood, were a few inches wide, and were
fastened down, end to end, on logs of wood, or "sleepers", placed crosswise at intervals of two or three feet. In time, it became
a common practice to cover them with a thin sheathing or plating of iron, in order to add to their life. This caused more wear on
the wooden rollers of the wagons, and, towards the middle of the 18th century, led to the introduction of iron wheels, the use of
which is recorded on a wooden railway near Bath in 1734. But the iron sheathing was not strong enough to resist buckling under
the passage of the loaded wagons, so rails made wholly of iron were invented.
In 1767, the Colebrookdale Iron Works cast a batch of iron rails or plates, each 3 ft (1 m) long and 4 in (100 mm) broad,
having on the inner side an upright ledge or flange, 3 in (75 mm) high at the center and tapering to a height of 2 in (50 mm) at
the ends, for the purpose of keeping the flat wheels on the track. Subsequently, to increase the strength, a similar flange was
added below the rail. Wooden sleepers continued to be used – the rails being secured by spikes passing through the
extremities – but circa 1793, stone blocks also began to be employed, an innovation associated with the name of Benjamin Outram, who, however, was
not the first to make it. This type of rail was known as the plate-rail, tramway-plate or way-plate, names which are preserved in
the modern term "platelayer" applied to the men who lay and maintain the permanent way of a railway.¹
Another form of rail, the edge rail, was first used by William
Jessop on a line which was opened between Loughborough and Nanpantan in Leicestershire in 1789. This line was originally designed as a
"plate way" on the Outram system, but objections were raised to rails with upstanding ledges or flanges being laid on the
turnpike road, this difficulty was overcome by paving, or "causewaying", the road up to the level of the top of the flanges.
These two systems of constructing railways, the plate-rail and the edge-rail, continued to exist side by side until well on
into the 19th century. In most parts of England the plate-rail was preferred, and it was used on the Surrey Iron Railway, from Wandsworth to Croydon, which, sanctioned by parliament in 1801, was
finished in 1803, and was the first railway available to the public on payment of tolls, previous lines having all been private
and reserved exclusively for the use of their owners.
In South Wales again, where in 1811 the railways
were in connected with canals, collieries, iron and copper works had a total length of nearly 150 miles, the plate-way was almost
universal. But in the north of England and in Scotland the edge-rail was held in greater favor, and by the third decade of the
century its superiority was generally established.
The manufacture of the rails themselves was gradually improved. By making them in longer lengths a reduction was effected in
the number of joints, always the weakest part of the line; and another advance consisted in the substitution of wrought iron for
cast iron, though that material did not gain wide adoption until after the patent for an improved method of rolling rails granted
in 1820 to John Birkinshaw,
of the Bedlington Ironworks, Durham. His rails were wedge-shaped in section, much wider at the top than at the bottom, with the
intermediate portion or web thinner still, and he recommended that they should be made 18 ft (5 m) long, even suggesting that
several of them might be welded together end to end to form considerable lengths. They were supported on sleepers by chairs at
intervals of 3 ft (1 m), and were fish-bellied between the points of support. As used by George Stephenson on the Stockton & Darlington and Whitstable &
Canterbury lines they weighed 28 lb/yd (14 kg/m). On the Liverpool and Manchester Railway they were usually 12 or 15 ft (4 or 5 m) long and weighed
35 lb/yd (17 kg/), and they were fastened by iron wedges to chairs weighing 15 or 17 lb (7 or 8 kg) each. The chairs were in turn
fixed to the sleepers by two iron spikes, half-round wooden cross sleepers being employed on embankments and stone blocks 20 in
(500 mm) square by 10 in (250 mm) deep in cuttings. The fishbellied rails, however, were found to break near the chairs, and from
1834 they began to be replaced with parallel rails weighing 50 lb/yd (25 kg/m).
The wagonway had come into considerable use in connection with collieries and quarries before it was realized that for the
carriage of general merchandise it might prove a serious competitor to the canals, of which a large distance had been constructed
in Great Britain during that period. In the article on "Railways" in the
Supplement to the Encyclopaedia Britannica, published in 1824, it is said: "It will appear that this species of inland carriage
is principally applicable where trade is considerable and the length of conveyance short; and is chiefly useful, therefore, in
transporting the mineral produce of the kingdom from the mines to the nearest land or
water communication, whether sea, river or canal. Attempts have been made to bring it into more general use, but without success;
and it is only in particular circumstances that navigation, with the aid either of locks or inclined planes to surmount the
elevations, will not present a more convenient medium for an extended trade." It must be remembered, however, that at this time
the railways were nearly all worked by horse-traction, and that the use of steam had made but little progress.
Richard Trevithick, in 1804, in an early recorded use of
steam power on a railway, ran a high-pressure steam locomotive with smooth wheels, on a plate-way near Merthyr Tydvil, but it was
found more expensive than horses. He made three trips from the iron mines at Penydarren to the Merthyr-Cardiff Canal and each
time broke the rails that were designed for horse wagon loads. In 1821 a wagonway was proposed from that would connect the mines
at West Durham, Darlington and the River Tees at Stockton, George
Stephenson successfully argued that horse drawn wagonways were obsolete and a steam powered railway could carry 50 times as
much coal. Shortly after the completion of the Stockton
and Darlington railroad in 1825 coal transport prices began falling rapidly.
Stationary steam engines for mining were generally available around the middle of the 18th century, wagonways and steam
powered railways that had steep uphill sections would employ a cable powered by a stationary steam engine to work the inclined
sections. British troops in Lewiston New York used a cable wagonway to move supplies to base before the American Revolutionary War.² The Stockton and
Darlington had two inclined sections powered by cable.
The transition from a wagonway to a fully steam powered railway was a gradual evolution. Railways up to 1835 that were steam
powered often made runs with horses when the steam locomotive were unavailable. The Baltimore and Ohio Railroad initially opened in 1830 with 13 miles (21 km) of track was
horse powered. Railroads powered by stationary engines and cables (San Francisco cable cars) and horse-drawn trams (Isle of Man,
Manx Tramway) are still in use today.
1. www.1911Encyclopedia.org
Railways article
2. Illustrated History of the Railroads
John Westwood
Brompton Books copyright 1994
The First Steam Railways pp 8-14
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