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CHAPTER XVIII EVOLUTION OF THE RAILWAY
The early history of the railway is the early history of the English coal trade.

Down to the sixteenth century the fuel supply of the country alike for manufacturing and for domestic purposes was derived almost exclusively from those forests and peat-beds that once covered so large a portion of the area of the British Isles. Coal was not unknown, though it was then called "sea-coal," a name distinguishing coal from charcoal, and given to it because the fact of the earliest known specimens being found on the shores of Northumberland and of the Firth of Forth—where there are outcrops of the coal measures—led to the belief that the black stone which burned like charcoal was a product of the sea. The name was retained, as an appropriate one, when coal was brought to London by sea from the north.

Coal is known to have been received at various dates during the thirteenth century in London (which then already had a Sacoles, or Sea-coal, Lane), in Colchester, in Dover and in Suffolk; but it was used mainly by smiths and lime-burners; and it was used by them still more when the construction of feudal castles and ecclesiastical buildings in and following the Norman period called for work not to be done efficiently with fires of wood or charcoal. The use of coal as fuel for domestic purposes remained, however, extremely limited. Unlike wood and charcoal, coal was not suitable for burning in the centre of rooms then unprovided with chimneys, while coal smoke was regarded as an intolerable nuisance, and as seriously detrimental to health. It was on these grounds that when, in the fourteenth century, brewers, dyers and others in London were found to be using coal, a Royal Proclamation was issued interdicting its use by any person not a smith or a lime-burner, and appointing a {196}commission of Oyer and Terminer to see to the punishment of all offenders.

For a further considerable period the use of coal continued very partial; but in the sixteenth century great uneasiness began to be felt at the prospective exhaustion of the timber supplies of the country, and various enactments were passed with a view to checking the destruction of the forests. Great attention began to be paid to the use of sea-coal as a substitute for wood, and an improvement in domestic architecture led to a more general provision of fire-places with chimneys, thus allowing of a resort to coal fires for domestic purposes. Chimneys began to appear, in fact, in numbers never seen before. Harrison, writing in 1577, grieves over the innovation of coal fires, and recalls the good old times of wood and peat when, as he touchingly says, "our heads did never ake."

Queen Elizabeth retained the prejudice against sea-coal, and would have none of it. Ladies of fashion, sharing, as loyal subjects, her Majesty's objections, would, in turn neither enter a room where coal was burning nor eat of food cooked at a coal fire. But James I., whose ancestors had long favoured coal fires in Scotland—and, it may be, thus made themselves responsible for the name of "Auld Reekie" conferred on Edinburgh—had coal brought for fires in his own rooms in Westminster Palace. When this fact became known Society changed its views, and decided that the hitherto obnoxious sea-coal might be tolerated, after all. Howes, writing in 1612, was then able to speak of coal as "the generall fuell of this Britaine Island."

In the result, and especially following on the development in trade and industry which came with the Restoration, there was a great increase in the demand for coal. In 1615 the coal fleet engaged in the transport of sea-coal to London, and other ports on the east and south-east coasts—where fuel was scarcest—comprised (as stated in "A History of Coal Mining in Great Britain," by Robert L. Galloway) 400 vessels. In 1635, or only twenty years later, the number had increased to between 600 and 700, and by 1650, or thereabouts, the total had further risen to 900 vessels, these figures being exclusive of the foreign fleets carrying coal to France, Holland and Germany.
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The collieries that were more especially required to meet this increased demand were those in the immediate neighbourhood of the Tyne, since they offered the advantages of thick seams of coal of excellent quality and close alike to the surface and to a navigable river. The proportions to which the industry had already attained in the year 1649 are shown by Grey, in his "Chorographia, or a Survey of Newcastle-upon-Tine," where he says: "Many thousand people are imployed in this trade of coales: many live by working of them in pits: many live by conveying them in waggons and waines to the river Tine.... One coal merchant imployeth five hundred or a thousand in his works of coal."

The one great difficulty in the way of development lay in the trouble experienced in getting the coal from the pit-banks to the river for loading into the keels, or barges, by which it would be conveyed to the sea-going colliers lying below the bridge at Newcastle.

The established custom was to send the coal to the river by carts, or wains, or even in panniers slung across the backs of horses; and in Robert Edington's "Treatise on the Coal Trade" (1813) mention is made of various collieries which had up to 600 or 700 carts engaged in this service. Inasmuch, however, as the art of road-making in general was then still in its elementary stage, one can well imagine that, with all this traffic along them, the roads between the collieries and the Tyne must have been in a condition that added greatly both to the difficulties and to the cost of transport. Nicholas Wood, in his "Practical Treatise on Rail-roads" (1825), gives an extract, dated 1602, from the book of a Newcastle coal company, showing that "from tyme out of mynd" the coal carts had brought eight bolls—equal to about 17 cwt.—of coal to the river; but added that "of late several hath brought only, or scarce, seven," a fact sufficiently suggestive of the deplorable state to which the colliery roads had been reduced even at the opening of a century that was to bring about so great an increase in the demand for coal.

Bad as the position was for the collieries located near to the Tyne, it was worse for those situate at any distance from the river, since, under the road conditions then prevailing, it was practically impossible for the owners of the latter collieries to get their coal to the river at all, or to secure {198}any share in a trade offering such great opportunities and undergoing such rapid expansion. The coal had but a nominal value so long as it could not be got away from the pit-banks.

The first attempt to overcome the difficulties of the situation was in the direction of laying parallel courses of stone or wood for the waggon wheels to run upon; but here we have the equivalent of a partially-paved roadway rather than of actual rails. The latter came when the parallel wheel-courses of wood were reduced to what William Hutchinson, in his "View of Northumberland" (1778), calls "strings of wood," for the accommodation of "large unwieldy carriages or waggons."

Nicholas Wood says that these wooden rails had a length of about six feet, and were five or six inches in thickness, with a breadth of about the same proportions. They were pegged down to sleepers placed across the track at a distance of about two feet apart, so that one rail reached across three sleepers. The spaces between the sleepers were filled in with ashes or small stones, to protect the feet of the horses. The waggons were in the form of a hopper, being much broader and longer at the top than at the bottom. At first all four wheels of the waggon were made either of one entire piece of wood or of two or three pieces of wood fastened together, the rim, in either case, being so shaped as to have on one side a projection, or flange, which would keep the wheel on the rails.

This, then, was the earliest example of a railway—the fundamental principle of which is, of course, the use of rails to facilitate the drawing or the propulsion of a moving body, and not the particular form of motive power (however great the importance, in actual practice, of this matter of detail) by which the traction is secured.

The date of the first "rail-way" (so called) in the form described, and in accordance with the principle mentioned, is uncertain; but Galloway, in his "History of Coal Mining," mentions a document dated 1660 which refers to a sale of timber used in the construction of waggon-ways; while Roger North, writing in 1676, describes the then existing railways in terms which suggest that they were, at that date, a well-established institution. Speaking generally, therefore, one may assume that the pioneer rail-ways were brought {199}into operation somewhere about the middle of the seventeenth century—if not still earlier. Taking 1650 as an approximate date, this would mean that the first rail-way must have been made about one hundred and eighty years before the opening of that Liverpool and Manchester line with which the history of railways is often assumed to have begun.

Hutchinson speaks of the collieries on the Tyne as being, at the time he wrote (1778), "about twenty-four in number," and he further says of them that they "lie at considerable distances from the river." On account of these considerable distances the colliery managers had to secure way-leaves for their rail-ways from the owners of intervening land, so as to obtain access to the Tyne. Thus Roger North, in the account he gives of the railways in the Newcastle district, says: "When men have pieces of land between the collieries and the rivers, they sell leave to lead coals over their ground, and so dear that the owner of a rood of ground will expect 20l. per annum for this leave." In some instances the total payment for a way-leave seems to have amounted to £500 a year. Statutory powers were not required for the rail-ways so long as they were used only for private purposes, though when they crossed a public road the assent of the local authorities was necessary.

The rails, sleepers and wheels, all of wood, came mostly from Sussex or Hampshire, and the writer of an article on the Tyne railways, published in the "Commercial and Agricultural Magazine" for October, 1800, speaks of the use on them of so much timber as "the more extraordinary" because the necessities of the coal mines had previously "used up every stick of timber in the neighbourhood," so that "the import from returning colliers (coal-ships) was the sole resource." Such import, also, would appear to have been considerable, the making of wooden rail-ways on the north-east coast being the means of developing an important industry in rails and wheels in the southern counties.

One of the importers on the Tyne was William Scott, father of Lords Stowell and Eldon, and his "Letters," included in M. A. Richardson's "Reprints of Rare Tracts" (Newcastle-upon-Tyne, 1849), give some interesting details on the subject. Scott, in addition to being himself engaged in mining, acted as agent for southern producers of wooden rails and {200}wheels for colliery rail-ways; and his letters show that in and about the year 1745 the consignments were coming to hand in "immense quantities." Scott seems to have had great trouble in restraining the zeal of the southerners. He tells one correspondent that "Wheels are at present a great drug from so many yt. came last year. Rails will be wanted, but the people pays so badly for them that wod weary eny body to serve them." To another he says: "I find the best oak rails will scarcely give 6d. p yd this year." To correspondents at Lyndhurst, New Forest, he writes: "I fancy the dealers in wn. wheels will expect to have wheels soon 'em given, if such great numbers continue coming." Mr West, of Slyndon, near Arundel, Sussex, is told that not more than five shillings can be got for the best wooden wheels, and that "dealers are so full that they have not room for any wheels." On March 27, 1747, Scott writes concerning wheels: "No less than about 2000 com'd within these 14 days from Lyndhurst consign'd to different people"; and two months later he announces that he has resolved to receive "no more such goods as wooden wheels, rails and such like from anybody."

Most of the Tyne collieries were at a higher level than the river, and in the construction of the rail-ways it was sought to obtain a regular and easy descent, regardless of route or distance, to the "staith," or shipping-stage, from which the coal would be loaded either into the keels (barges) employed to take it along the river to the colliers, or, in the case of longer distance rail-ways, direct into the collier itself, the bottom of the waggons being made after the fashion of a trap-door to facilitate discharge. Gradual descent was further aimed at because it allowed of the loaded waggons moving along the rail-way by reason of their own weight.

How this prototype both of the railway and of express trains as known to us to-day was operated is well shown in a "Description of a Coal-Waggon," with an accompanying illustration, contributed to the "General Magazine of Arts and Sciences" for June, 1764, by John Buddie, of Chester-le-street, Durham, who subsequently became manager of the Wallsend Colliery. In the illustration a horse is depicted drawing, by means of two ropes fastened to its collar, a loaded four-wheeled coal waggon along a rail-way preceded by a man who, having a bundle of hay underneath one arm, {201}holds some of the hay a few inches in front of the horse so that the animal, stretching forward to get the hay, draws along the waggon more readily. Buddle explains that the waggon is "conducted or drove by a single man, called the Waggon-man, whose most common action on the road is, inticing the horse forward with a bit of hay in his hand, which he supplies from under his arm, a quantity of hay sufficient for a day being kept in the Hay-poke," that is, in a receptacle at the back of the waggon. Suspended over one of the hind wheels is a "convoy," or brake, formed of a curved and strong-looking piece of wood (described in the text as alder-wood), which is attached at one end to the waggon, and held in a loop at the other. "Its use," says Buddle, "is to regulate the motion of the waggon down the sides of the hills (called by the waggon men runs) making it uniform.... The waggon-man, taking the end out of the loop, lets it down upon the wheel, and, placing himself astride upon the end, with one foot on the waggon-soal he presses more or less, according to the declivity of the run; the Convoy acting at that time as a leaver."

Buddle further says: "Waggon men, in going down very steep Runs, commonly take their horses from before, and fasten them behind their waggons,[27] as they would inevitably be killed was the convoy to break (which frequently happens) or any other accident occasion these waggons to run amain. Nor is this fatal consequence attendant only on the horses, but the drivers often receive broken bones, bruises, and frequently the most excruciating deaths. Indeed, in some places, a most humane custom is established, which is, when any waggon-man loses his horse, the other Waggon-men go a Gait for the poor sufferer, which is little out of their profits, and purchase him another horse."

About 1750, according to Nicholas Wood, cast-iron wheels were introduced; but in 1765 wooden wheels were still mostly used at the back of the waggon, to allow of the convoy getting a better grip when the waggon was going, by its own {202}weight, down an incline; though even then the danger of accident was, as Buddle's observations suggest, sufficiently grave. On this same point it is said by T. S. Polyhistor, in a "Description of a Coal Waggon," given in the "London Magazine" for March, 1764:—

"They commonly unloose the horse when they come to the runs, and then put him too again when down; the reason of their taking him off at such places is because, were the convoy to break, it would be impossible to save the horse from being killed, or if the waggon-way rails be wet sometimes a man cannot stop the waggon with the convoy and where the convoy presses upon the wheel it will fire and flame surprisingly; many are the accidents that have happened as aforesaid; many hundred poor people and horses have lost their lives; for was there ever so many waggons before the waggon that breaks its convoy and has not got quite clear of the run, they are all in great danger, both men and horses, of being killed."

Polyhistor also states that the quantity of coal one of these waggons would draw on the rails was 19 "bolls," or "bowls," as he calls them. This gave a load of about 42 cwt. of coal, as compared with the load of 17 cwt., or less, to which the waggons on the ordinary roads at the collieries had been reduced. The advantage from the point of view of transport was obvious; but no less certain, also, was the risk to life and limb when a waggon with over two tons of coal was allowed to run down an incline checked only by a primitive wooden brake, with a man seated on one end of it to press it against a wheel. In wet weather boys or old men were employed to sprinkle ashes on the rails; but there were times when the rail-ways having a steep descent could not be used at all.

Introduced on the Tyne, the rail-way was adopted in 1693 by collieries on the Wear, and it also came into vogue in Shropshire and other districts. In 1698 a rail-way was set up on Sir Humphry Mackworth's colliery at Neath, Glamorganshire; but after it had been in use about eight years it was condemned by a grand jury at Cardiff as a "nuisance," and the portion crossing the highway between Cardiff and Neath was torn up. In a statement presented, rebutting the allegation of the grand jury, it was said: "These waggon ways are {203}very common and frequently made use of about Newcastle and also at Broseley, Benthal and other places in Shropshire, and are so far from being nuisances that they have ever been esteemed very useful to preserve the roads, which would be otherwise made very bad and deep by the carriage of coal in common waggons and carts."

The Tyneside colliery rail-way was, in fact, widely adopted; though it underwent many improvements long before there was any suggestion of operating the new form of traction by means of locomotives.

The first improvement on the original wooden rail pegged on to the sleepers was the fastening on it of another rail, in order that this could be removed, when worn down, without interfering with the sleepers. This arrangement was known as the "double way"; and Nicholas Wood says of it: "The double rail, by increasing the height of the surface whereon the carriage travelled, allowed the inside of the road to be filled up with ashes or stone to the under side of the upper rail, and consequently above the level of the sleepers, which thus secured them from the action of the feet of the horses." He adds that on the first introduction of the double way the under rail was of oak, and afterwards of fir, mostly six feet long, and reaching across three sleepers, and was about five inches broad on the surface by four or five inches in depth. The upper rail was of the same dimensions and almost always made of beech or plane tree.

The next improvement was the nailing of thin strips, or "plates," of wrought iron on to the double rail wherever there was a steep descent or a considerable curve, thus diminishing the friction. These "plates" were about two inches wide and half an inch thick, and they were fastened on to the wooden rails with ordinary nails. They constituted the first step towards the conversion of wooden rail-ways into an iron road, and Nicholas Wood thinks it very likely that the diminution of friction resulting from their use may have suggested the substitution of iron rails for wooden ones.

Cast-iron rails began to come into use about 1767. Their brittleness was, at first, found to be a great disadvantage; but this defect was subsequently overcome, to a certain extent, by the use of smaller waggons, which allowed of a better distribution of weight over the rail. Then in or about {204}1776 "plates" or "rails" (the two expressions seem to have been used somewhat indiscriminately) were cast with an inner flange, from two to three inches high, so that waggons with ordinary wheels could be taken upon them and be kept on the plate, or rail, by means of this flange.

John Curr, manager of the Duke of Norfolk's collieries, near Sheffield, who claimed to have invented these flanged "plates," describes them in his "Coal Viewer and Engine Builder's Practical Companion" (1797), as being six feet long, three inches broad, half an inch thick, from 47 lbs. to 50 lbs. in weight, and provided with nail holes for fastening them direct on to oak sleepers. Lines so constructed became known as "plate-ways," "tram-ways," or, alternatively, "dram-ways."

The derivation of the words tram and tramway has given rise to a certain amount of discussion from time to time, and the fallacy that they come from the name of Benjamin Outram, of the Ripley iron-works, Derbyshire, who, in the last quarter of the eighteenth century, advocated the flanged-plate system of rail-way, has been especially favoured. It was, however, merely a coincidence that "tram" formed part of his name, and this popular theory here in question is quite unfounded.

The real origin of "tram" is indicated, rather, by the following list of possible derivations, which I take from Skeat's "Etymological Dictionary":—

Swedish: Tromm, trumm, a log, or the stock of a tree; also a summer sledge.

Middle Swedish: Tr?m, trum, a piece of a large tree cut up into logs.

Norwegian: Tram, a door-step (of wood). Traam, a frame.

Low German: Traam, a balk or beam; especially one of the handles of a wheel-barrow.

Old High German: Drām, trām, a beam.

Thus in its original signification the word tram, or its equivalent, was applied either to a log of wood or to certain specified objects made of wood.

The word itself was in use in this country as far back as the middle of the sixteenth century, since on August 4, 1555, a certain Ambrose Middleton, of Skirwith, Cumberland (as recorded in the Surtees Society "Publications," vol. xxxviii., {205}page 37, note), made a will in which he left "to the amendinge of the highwaye or tram, from the weste ende of Bridgegait, in Barnard Castle, 20s." There is no reason to doubt that the "highwaye or tram" here referred to was a road across which logs of wood had been laid, the name "tram" being applied thereto by reason of its aforesaid original signification. It is, further, easy to understand how, when the pioneer rail-ways were made entirely of wood, the word tram-way should, for that reason, still be applied to them. Just, also, as "tram" had already passed from a log of wood to a wooden sledge or to a wheelbarrow handle, so it was given by pitmen in the north of England to the small waggon in which coal was pushed or drawn along in the workings.

When "plates" were nailed on to the wooden rails of the early rail-ways the use of the word tram-way may still have been regarded as appropriate; it was retained for the plates or rails provided with a flange, and lines constructed with flanged plates or rails were, in turn, called plate-ways, tram-ways, or dram-ways to distinguish them from other ways or roads made with rails having no flange.

In course of time the wooden rails which had been the original justification for the use of the word or prefix "tram" disappeared, and even the flanged rails were to be met with only on canal or colliery lines; but "tramway"—now a complete misnomer—is the name still given in this country to what in the United States are more accurately known as street railways.

Of the vast number of people in the United Kingdom who daily use the word tramway, or speak of "going by tram," few, probably, realise how they are thus recalling the days alike of log-roads and of those rail-ways of wood which were the pioneers of the iron roads of to-day.

The designation, also, of "platelayer" was originally applied to the men employed to lay the "plates" of which I have spoken; but although workers on the permanent way are now, surely, rail-layers rather than plate-layers, they are still known by the original name.

The system of flanged plates, or rails, was widely adopted; but when, in 1785, it was proposed to build a 3-mile plate-way, or tram-way, of this type between Loughborough and the Nanpantan collieries, the commissioners of a turnpike {206}road it was necessary to cross objected, on the ground that the raised flange would be dangerous to traffic passing along the road. Following on these objections, William Jessop, the engineer of the proposed line, decided, in 1788, to abandon flanged plates and flat wheels, and to substitute for them flat rails and flanged wheels.[28] He proceeded to cast some "edge-rails" which overcame the scruples of the road commissioners, and the Loughborough and Nanpantan rail-way was opened in 1789, being the first having iron rails with a flat surface, on the "edge" of which wheels with a flange on their inner side were run. The plate, or tram, system of flanged rails still had many advocates, and for a time there was much controversy as to the respective merits of the two systems; but the principle introduced by Jessop was eventually adopted for railways in general, and became one of the most important of the developments that rendered possible the attainment of high speeds in rail transport. "The substitution of the flanged wheel for the flanged plate was," said Mr. James Brunlees, C.E., in his presidential address in the Mechanical Science Section at the 1883 meeting of the British Association, "an organic change which has been the forerunner of the great results accomplished in modern travelling by railway."

For some thirty years after Jessop's improvement, the rails, of whichever kind, were still made of cast-iron, wrought-iron rails, tried at Newcastle-upon-Tyne in 1805, not coming into general use until about 1820, when John Birkenshaw, of the Bedlington iron-works, invented an efficient and economical method of rolling iron bars suitable for use as railway lines.[29] By 1785 iron rails, even though only cast-iron rails, had widely taken the place of the wooden rails which had then been in use for over a hundred years.
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The substitution, from about 1767, of iron rails—even though they were only cast-iron rails—for wooden ones became the great event in the development of railways at this period, and gave the newer lines their distinguishing feature as compared with their predecessors. Each fresh line made took the credit of being an "iron rail-way"; and not only did that designation remain in vogue in this country for several decades but it fixed, also, the names of the railway systems in various Continental countries, as shown by the term "Chemin de Fer" in France and Belgium, "Eisenbahn" in Germany, Austria and Switzerland; "Strada ferrata" in Italy, and "Ferrocarril" in Spain (the English equivalent in each instance being "Iron Road"), and by the name of Holland Iron Railway Company ("Hollandsche Yzeren Spoorvegs-maatschappy") by which one of the oldest of the railway companies in Holland—where it was founded in 1837—is still known.[30]

One factor in the preference shown for iron rails over wooden ones was the consideration of cost. Alluding to the wooden railways of Durham, in his "General View" of the agriculture of that county, drawn up for the Board of Agriculture in 1810, John Bailey, of Chillingham, says: "Of late years, on account of the high price of wood, iron railways have been substituted." With an increase in the price of timber, owing to the greater scarcity thereof, as the available supplies in the southern counties became more depleted, the time may well have come when, apart from other considerations, it was found cheaper in the north to make cast-iron rails than to import wooden ones. The need for importing so much timber was further diminished, from about 1739, by the substitution, in many instances, of blocks of stone for {208}the wooden sleepers previously used, the iron being either spiked to wooden plugs inserted in holes made in the stones or else fastened by wooden pins into cast-iron "pedestals," as John Bailey calls them, fixed in the stones.

Wooden rails did not, however, entirely and immediately give way to iron rails. On the contrary, the old system was so far maintained that, according to "The Industrial Resources of the Tyne," wooden railways could still be found on the collieries in that district as late as 1860.

Among the advantages derived from the substitution of iron rails for wooden rails was the fact that a horse could draw, on the level, heavier loads than before. On the other hand, the heavier the load the greater was the danger in taking the waggons down hill-sides with only a wooden brake to check their speed; and this danger was increased to an even greater degree when the use of iron rails involved the abandonment of the wooden wheels which had hitherto been retained at the back of the waggons in order that the brake should act more effecti............
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