One who knew him intimately in private life has seen him exhorting such backsliders, and denouncing their misconduct and imprudence with the tears streaming down his cheeks. And he would generally conclude by opening his purse, and giving them the help which they needed "to make a fresh start in the world."

Mr. Stephenson"s life at Tapton during his latter years was occasionally diversified with a visit to London. His engineering business having become limited, he generally went there for the purpose of visiting friends, or "to see what there was fresh going on." He found a new race of engineers springing up on all hands-men who knew him not; and his London journeys gradually ceased to yield him pleasure. A friend used to take him to the opera, but by the end of the first act, he was generally in a profound slumber. Yet on one occasion he enjoyed a visit to the Haymarket with a party of friends on his birthday, to see T. P. Cooke, in "Black-eyed Susan;"-if that can be called enjoyment which kept him in a state of tears during half the performance. At other times he visited Newcastle, which always gave him great pleasure. He would, on such occasions, go out to Killingworth and seek up old friends, and if the people whom he knew were too retiring, and shrunk into their cottages, he went and sought them there. Striking the floor with his stick, and holding his n.o.ble person upright, he would say, in his own kind way, "Well, and how"s all here to-day?" To the last he had always a warm heart for Newcastle and its neighbourhood.

Sir Robert Peel, on more than one occasion, invited George Stephenson to his mansion at Drayton, where he was accustomed to a.s.semble round him men of the highest distinction in art, science, and legislation, during the intervals of his parliamentary life. The first invitation was respectfully declined. Sir Robert invited him a second time, and a second time he declined: "I have no great ambition," he said, "to mix in fine company, and perhaps should feel out of my element amongst such high folks." But Sir Robert a third time pressed him to come down to Tamworth early in January, 1845, when he would meet Buckland, Follett, and others well known to both. "Well, Sir Robert," said he, "I feel your kindness very much, and can no longer refuse: I will come down and join your party."

Mr. Stephenson"s strong powers of observation, together with his native humour and shrewdness, imparted to his conversation at all times much vigour and originality, and made him, to young and old, a delightful companion. Though mainly an engineer, he was also a profound thinker on many scientific questions: and there was scarcely a subject of speculation, or a department of recondite science, on which he had not employed his faculties in such a way as to have formed large and original views. At Drayton, the conversation usually turned upon such topics, and Mr. Stephenson freely joined in it. On one occasion, an animated discussion took place between himself and Dr. Buckland on one of his favourite theories as to the formation of coal. But the result was, that Dr. Buckland, a much greater master of tongue-fence than Mr. Stephenson, completely silenced him. Next morning, before breakfast, when he was walking in the grounds, deeply pondering, Sir William Follett came up and asked what he was thinking about? "Why, Sir William, I am thinking over that argument I had with Buckland last night; I know I am right, and that if I had only the command of words which he has, I"d have beaten him."

"Let me know all about it," said Sir William, "and I"ll see what I can do for you." The two sat down in an arbour, and the astute lawyer made himself thoroughly acquainted with the points of the case; entering into it with all the zeal of an advocate about to plead the dearest interests of his client. After he had mastered the subject, Sir William rose up, rubbing his hands with glee, and said, "Now I am ready for him." Sir Robert Peel was made acquainted with the plot, and adroitly introduced the subject of the controversy after dinner. The result was, that in the argument which followed, the man of science was overcome by the man of law; and Sir William Follett had at all points the mastery over Dr.

Buckland. "What do _you_ say, Mr. Stephenson?" asked Sir Robert, laughing. "Why," said he, "I will only say this, that of all the powers above and under the earth, there seems to me to be no power so great as the gift of the gab." {350}

One Sunday, when the party had just returned from church, they were standing together on the terrace near the Hall, and observed in the distance a railway-train flashing along, tossing behind its long white plume of steam. "Now, Buckland," said Stephenson, "I have a poser for you. Can you tell me what is the power that is driving that train?"

"Well," said the other, "I suppose it is one of your big engines." "But what drives the engine?" "Oh, very likely a canny Newcastle driver."

"What do you say to the light of the sun?" "How can that be?" asked the doctor. "It is nothing else," said the engineer, "it is light bottled up in the earth for tens of thousands of years,-light, absorbed by plants and vegetables, being necessary for the condensation of carbon during the process of their growth, if it be not carbon in another form,-and now, after being buried in the earth for long ages in fields of coal, that latent light is again brought forth and liberated, made to work as in that locomotive, for great human purposes."

During the same visit, Mr. Stephenson, one evening repeated his experiment with blood drawn from the finger, submitting it to the microscope in order to show the curious circulation of the globules. He set the example by p.r.i.c.king his own thumb; and the other guests, by turns, in like manner, gave up a small portion of their blood for the purpose of ascertaining the comparative livelinesss of their circulation.

When Sir Robert Peel"s turn came, Mr. Stephenson said he was curious to know "how the blood globules of a great politician would conduct themselves." Sir Robert held forth his finger for the purpose of being p.r.i.c.ked; but once, and again, he sensitively shrunk back, and at length the experiment, so far as he was concerned, was abandoned. Sir Robert Peel"s sensitiveness to pain was extreme, and yet he was destined, a few years after, to die a death of the most distressing agony.

In 1847, the year before his death, Mr. Stephenson was again invited to join a distinguished party at Drayton Manor, and to a.s.sist in the ceremony of formally opening the Trent Valley Railway, which had been originally designed and laid out by himself many years before. The first sod of the railway had been cut by the Prime Minister, in November, 1845, during the time when Mr. Stephenson was abroad on the business of the Spanish railway. The formal opening took place on the 26th June, 1847, the line having thus been constructed in less than two years.

What a change had come over the spirit of the landed gentry since the time when George Stephenson had first projected a railway through that district! Then they were up in arms against him, characterising him as the devastator and spoiler of their estates; now he was hailed as one of the greatest benefactors of the age. Sir Robert Peel, the chief political personage in England, welcomed him as a guest and friend, and spoke of him as the chief among practical philosophers. A dozen members of Parliament, seven baronets, with all the landed magnates of the district, a.s.sembled to celebrate the opening of the railway. The clergy were there to bless the enterprise, and to bid all hail to railway progress, as "enabling them to carry on with greater facility those operations in connexion with religion which were calculated to be so beneficial to the country." The army, speaking through the mouth of General A"Court, acknowledged the vast importance of railways, as tending to improve the military defences of the country. And representatives from eight corporations were there to acknowledge the great benefits which railways had conferred upon the merchants, tradesmen, and working cla.s.ses of their respective towns and cities.

In the spring of 1848 Mr. Stephenson was invited to Whittington House, near Chesterfield, the residence of his friend and former pupil, Mr.

Swanwick, to meet the distinguished American, Emerson. Upon being introduced, they did not immediately engage in conversation; but presently Stephenson jumped up, took Emerson by the collar, and giving him one of his friendly shakes, asked how it was that in England we could always tell an American? This led to an interesting conversation, in the course of which Emerson said how much he had been everywhere struck by the haleness and comeliness of the English men and women; and then they diverged into a further discussion of the influences which air, climate, moisture, soil, and other conditions exercised upon the physical and moral development of a people. The conversation was next directed to the subject of electricity, upon which Stephenson launched out enthusiastically, explaining his views by several simple and striking ill.u.s.trations. From thence it gradually turned to the events of his own life, which he related in so graphic a manner as completely to rivet the attention of the American. Afterwards Emerson said, "that it was worth crossing the Atlantic to have seen Stephenson alone; he had such native force of character and vigour of intellect."

The rest of Mr. Stephenson"s days were spent quietly at Tapton, amongst his dogs, his rabbits, and his birds. When not engaged about the works connected with his collieries, he was occupied in horticulture and farming. He continued proud of his flowers, his fruits, and his crops; and the old spirit of compet.i.tion was still strong within him. Although he had for some time been in delicate health, and his hand shook from nervous affection, he appeared to possess a sound const.i.tution. Emerson had observed of him that he had the lives of many men in him. But perhaps the American spoke figuratively, in reference to his vast stores of experience. It appeared that he had never completely recovered from the attack of pleurisy which seized him during his return from Spain. As late, however, as the 26th July, 1848, he felt himself sufficiently well to be able to attend a meeting of the Inst.i.tute of Mechanical Engineers at Birmingham, and to read to the members his paper "On the Fallacies of the Rotatory Engine." It was his last appearance before them. Shortly after his return to Tapton, he had an attack of intermittent fever, from which he seemed to be recovering, when a sudden effusion of blood from the lungs carried him off, on the 12th August, 1848, in the sixty-seventh year of his age. When all was over, Robert wrote to Edward Pease, "With deep pain I inform you, as one of his oldest friends, of the death of my dear father this morning at 12 o"clock, after about ten days" illness from severe fever." Mr. Starbuck, who was also present, wrote, "The favourable symptoms of yesterday morning were towards evening followed by a serious change for the worse. This continued during the night, and early this morning it became evident that he was sinking. At a few minutes before 12 to-day he breathed his last. All that the most devoted and unremitting care of Mrs. Stephenson {354} and the skill of medicine could accomplish, has been done, but in vain."

George Stephenson"s remains were followed to the grave by a large body of his workpeople, by whom he was greatly admired and beloved. They remembered him as a kind master, who was ever ready actively to promote all measures for their moral, physical, and mental improvement. The inhabitants of Chesterfield evinced their respect for the deceased by suspending business, closing their shops, and joining in the funeral procession, which was headed by the corporation of the town. Many of the surrounding gentry also attended. The body was interred in Trinity Church, Chesterfield, where a simple tablet marks the great engineer"s last resting-place.

The statue of George Stephenson, which the Liverpool and Manchester and Grand Junction Companies had commissioned, was on its way to England when his death occurred; and it served for a monument, though his best monument will always be his works. The statue referred to was placed in St. George"s Hall, Liverpool. A full-length statue of him, by Bailey, was also erected a few years later, in the n.o.ble vestibule of the London and North-Western Station, in Euston Square. A subscription for the purpose was set on foot by the Society of Mechanical Engineers, of which he had been the founder and president. A few advertis.e.m.e.nts were inserted in the newspapers, inviting subscriptions; and it is a notable fact that the voluntary offerings included an average of two shillings each from 3150 working men, who embraced this opportunity of doing honour to their distinguished fellow workman.

[Picture: Trinity Church, Chesterfield]

But unquestionably the finest and most appropriate statue to the memory of George Stephenson is that erected in 1862, after the design of John Lough, at Newcastle-upon Tyne. It is in the immediate neighbourhood of the Literary and Philosophical Inst.i.tute, to which both George and his son Robert were so much indebted in their early years; close to the great Stephenson locomotive foundry established by the shrewdness of the father; and in the vicinity of the High Level Bridge, one of the grandest products of the genius of the son. The head of Stephenson, as expressed in this n.o.ble work, is ma.s.sive, characteristic, and faithful; and the att.i.tude of the figure is simple yet manly and energetic. It stands on a pedestal, at the respective corners of which are sculptured the rec.u.mbent figures of a pitman, a mechanic, an engine-driver, and a plate-layer.

The statue appropriately stands in a very thoroughfare of working-men, thousands of whom see it daily as they pa.s.s to and from their work; and we can imagine them, as they look up to Stephenson"s manly figure, applying to it the words addressed by Robert Nicoll to Robert Burns, with perhaps still greater appropriateness:-

"Before the proudest of the earth We stand, with an uplifted brow; Like us, thou wast a toiling man,- And we are n.o.ble, now!"

The portrait prefixed to this volume gives a good indication of George Stephenson"s shrewd, kind, honest, manly face. His fair, clear countenance was ruddy, and seemingly glowed with health. The forehead was large and high, projecting over the eyes, and there was that ma.s.sive breadth across the lower part which is usually observed in men of eminent constructive skill. The mouth was firmly marked, and shrewdness and humour lurked there as well as in the keen grey eye. His frame was compact, well-knit, and rather spare. His hair became grey at an early age, and towards the close of his life it was of a pure silky whiteness.

He dressed neatly in black, wearing a white neckcloth; and his face, his person, and his deportment at once arrested attention, and marked the Gentleman.

[Picture: Tablet in Trinity Church, Chesterfield]

[Picture: Victoria Bridge, Montreal]

CHAPTER XIX.

ROBERT STEPHENSON"S VICTORIA BRIDGE, LOWER CANADA-ILLNESS AND DEATH-STEPHENSON CHARACTERISTICS.

George Stephenson bequeathed to his son his valuable collieries, his share in the engine manufactory at Newcastle, and his large acc.u.mulation of savings, which, together with the fortune he had himself ama.s.sed by railway work, gave Robert the position of an engineer millionaire-the first of his order. He continued, however, to live in a quiet style; and although he bought occasional pictures and statues, and indulged in the luxury of a yacht, he did not live up to his income, which went on rapidly acc.u.mulating until his death.

There was no longer the necessity for applying himself to the laborious business of a parliamentary engineer, in which he had now been occupied for some fifteen years. Shortly after his father"s death, Edward Pease strongly recommended him to give up the more hara.s.sing work of his profession; and his reply (15th June, 1850) was as follows:-"The suggestion which your kind note contains is quite in accordance with my own feelings and intentions respecting retirement; but I find it a very difficult matter to bring to a close so complicated a connexion in business as that which has been established by twenty-five years of active and arduous professional duty. Comparative retirement is, however, my intention; and I trust that your prayer for the Divine blessing to grant me happiness and quiet comfort will be fulfilled. I cannot but feel deeply grateful to the Great Disposer of events for the success which has. .h.i.therto attended my exertions in life; and I trust that the future will also be marked by a continuance of His mercies."

Although Robert Stephenson, in conformity with this expressed intention, for the most part declined to undertake new business, he did not altogether lay aside his harness; and he lived to repeat his tubular bridges both in Lower Canada and in Egypt. The success of the tubular system, as adopted at Menai and Conway, was such as to recommend it for adoption wherever great span was required; and the peculiar circ.u.mstances connected with the navigation of the St. Lawrence and the Nile, may be said to have compelled its adoption in carrying railways across those great rivers.

The Victoria Bridge, of which Robert Stephenson was the designer and chief engineer, is, without exception, the greatest work of the kind in the world. For gigantic proportions and vast length and strength there is nothing to compare with it in ancient or modern times. The entire bridge, with its approaches, is only about sixty yards short of _two miles_, being five times longer than the Britannia across the Menai Straits, seven and a half times longer than Waterloo Bridge, and more than ten times longer than the new Chelsea Bridge across the Thames! It has not less than twenty-four spans of 242 feet each, and one great central span-itself an immense bridge-of 330 feet. The road is carried within iron tubes 60 feet above the level of the St. Lawrence, which runs beneath at a speed of about ten miles an hour, and in winter brings down the ice of two thousand square miles of lakes and rivers, with their numerous tributaries. The weight of iron in the tubes is about ten thousand tons, supported on ma.s.sive piers, which contain, some six, and others ten thousand tons of solid masonry.

So gigantic a work, involving so heavy an expenditure-about 1,300,000-was not projected without sufficient cause. The Grand Trunk Railway of Canada, upwards of 1200 miles in length, traverses British North America from the sh.o.r.es of the Atlantic to the rich prairie country of the Far West. It opens up a vast extent of fertile territory for future immigration, and provides a ready means for transporting the varied products of the Western States to the seaboard. So long as the St. Lawrence was relied upon, the inhabitants along the Great Valley were precluded from communication with each other for nearly six months of the year, during which the navigation was closed by the ice.

The Grand Trunk Railway was designed to furnish a line of communication through this great district at all seasons; following the course of the St. Lawrence along its north bank, and uniting the princ.i.p.al towns of Canada. But stopping short on the north sh.o.r.e, it was still an incomplete work; unconnected, except by a dangerous and often impracticable ferry, with Montreal, the capital of the province, and shut off from connection with the United States, as well as with the coast to which the commerce of Canada naturally tends. Without a bridge at Montreal, therefore, it was felt that the system of Canadian railway communication would have been incomplete, and the benefits of the Grand Trunk Railway in a great measure nugatory.

As early as 1846 the construction of a bridge across the St. Lawrence at Montreal was strongly advocated by the local press for the purpose of directly connecting that city with the then projected Atlantic and St.

Lawrence Railway. A survey of the bridge was made, and the scheme was reported to be practicable. A period of colonial depression, however, intervened, and although the project was not lost sight of, it was not until 1852, when the Grand Trunk Railway Company began their operations, that there seemed to be any reasonable prospect of its being carried out.

In that year, Mr. A. M. Ross-who had superintended, under Robert Stephenson, the construction of the tubular bridge over the Conway-visited Canada, and inspected the site of the proposed bridge, when he readily arrived at the conclusion that a like structure was suitable for the crossing of the St. Lawrence. He returned to England to confer with Robert Stephenson on the subject, and the result was the plan of the Victoria Bridge, of which Robert Stephenson was the designer, and Mr. A. M. Ross the joint and resident engineer.

The particular kind of structure to be adopted, however, formed the subject of much preliminary discussion. Even after the design of a tubular bridge had been adopted, and the piers were commenced, the plan was made the subject of severe criticism, on the ground of its alleged excessive cost. It therefore became necessary for Mr. Stephenson to vindicate the propriety of his design in a report to the directors of the railway, in which he satisfactorily proved that as respected strength, efficiency, and economy, with a view to permanency, the plan of the Victoria Bridge was unimpeachable. There were various methods proposed for spanning the St. Lawrence. The suspension bridge, such as that over the river Niagara, was found inapplicable for several reasons, but chiefly because of its defective rigidity, which greatly limited the speed and weight of the trains, and consequently the amount of traffic which could be pa.s.sed over such a bridge. Thus, taking the length of the Victoria Bridge into account, it was found that not more than 20 trains could pa.s.s within the 24 hours, a number insufficient for the accommodation of the antic.i.p.ated traffic. To introduce such an amount of material into the suspension bridge as would supply increased rigidity, would only be approximating to the original beam, and neutralizing any advantages in point of cheapness which might be derivable from this form of structure, without securing the essential stiffness and strength.

Iron arches were also considered inapplicable, because of the large headway required for the pa.s.sage of the ice in winter, and the necessity which existed for keeping the springing of the arches clear of the water-line. This would have involved the raising of the entire road, and a largely increased expenditure on the upper works. The question was therefore reduced to the consideration of the kind of _horizontal beam_ or _girder_ to be employed.

Horizontal girders are of three kinds. The _Tubular_ is constructed of riveted rectangular boiler plates. Where the span is large, the road pa.s.ses within the tube; where the span is comparatively small, the roadway is supported by two or more rectangular beams. Next there is the _Lattice_ girder, borrowed from the loose rough timber bridges of the American engineers, consisting of a top and bottom f.l.a.n.g.e connected by a number of flat iron bars, riveted across each other at a certain angle, the roadway resting on the top, or being suspended at the bottom between the lattice on either side. Bridges on the same construction are now extensively used for crossing the broad rivers of India, and are especially designed with a view to their easy transport and erection.

The _Trellis_ or Warren girder is a modification of the same plan, consisting of a top and bottom f.l.a.n.g.e, with a connecting web of diagonal flat bars, forming a complete system of triangulation-hence the name of "Triangular girder," by which it is generally known. The merit of this form consists in its comparative rigidity, strength, lightness, and economy of material These bridges are also extensively employed in spanning the rivers of India. One of the best specimens is the Crumlin viaduct, 200 feet high at one point, which spans the river and valley of the Ebbw near the village of Crumlin in South Wales. This viaduct is about a third of a mile long, divided into two parts by a ridge of hills which runs through the centre of the valley-each part forming a separate viaduct, the one of seven equal spans of 150 feet, the other of three spans of the same diameter. The bridge has been very skilfully designed and constructed, and, by reason of its great dimensions and novel arrangements, is ent.i.tled to be regarded as one of the most remarkable engineering works of the day.

"In calculating the strength of these different cla.s.ses of girders," Mr.

Stephenson observed, "one ruling principle appertains, and is common to all of them. Primarily and essentially, the ultimate strength is considered to exist in the top and bottom,-the former being exposed to a compression force by the action of the load, and the latter to a force of tension; therefore, whatever be the cla.s.s or denomination of girders, they must all be alike in amount of effective material in these members, if their spans and depths are the same, and they have to sustain the same amount of load. Hence, the question of comparative merit amongst the different cla.s.ses of construction of beams or girders is really narrowed to the method of connecting the top and bottom _webs_, so called." In the tubular system the connexion is effected by continuous boiler plates riveted together; and in the lattice and trellis bridges by flat iron bars, more or less numerous, forming a series of struts and ties. Those engineers who advocate the employment of the latter form of construction, set forth as its princ.i.p.al advantage the saving of material which is effected by employing bars instead of iron plates; whereas Mr. Stephenson and his followers urge, that in point of economy the boiler plate side is equal to the bars, whilst in point of effective strength and rigidity it is decidedly superior. To show the comparative economy of material, he contrasted the lattice girder bridge over the river Trent, on the Great Northern Railway near Newark, with the tubes of the Victoria Bridge. In the former case, where the span is 240 feet, and the bridge 13 feet wide, the weight including bearings is 292 tons; in the latter, where the span is 242 feet, the width of the tube 16 feet, the weight including bearings is 275 tons, showing a balance in favour of the Victoria Tube of 17 tons. The comparison between the Newark d.y.k.e Bridge and the Tubular Bridge over the river Aire is equally favourable to the latter; and no one can have travelled over the Great Northern line to York without noting that, as respects rigidity under the pa.s.sing train, the Tubular Bridge is decidedly superior. It is ascertained that the deflection caused by a pa.s.sing load is considerably greater in the former case; and Mr. Stephenson was also of opinion that the sides of all trellis or lattice girders are useless, except for the purpose of connecting the top and bottom, and keeping them in their position. They depend upon their connexion with the top and bottom webs for their own support; and since they could not sustain their shape, but would collapse immediately on their being disconnected from their top and bottom members, it is evident that they add to the strain upon them, and consequently to that extent reduce the ultimate strength of the beams. "I admit," he added, "that there is no formula for valuing the _solid_ sides for strains, and that at present we only ascribe to them the value or use of connecting the top and bottom; yet we are aware that, from their continuity and solidity, they are of value to resist horizontal and many other strains, independently of the top and bottom, by which they add very much to the stiffness of the beam; and the fact of their containing more material than is necessary to connect the top and bottom webs, has by no means been fairly established." Another important advantage of the Tubular bridge over the Trellis or Lattice structure, consists in its greater safety in event of a train running off the line,-a contingency which has more than once occurred on a tubular bridge without detriment, whereas in event of such an accident occurring on a Trellis or Lattice bridge, it must infallibly be destroyed. Where the proposed bridge is of the unusual length of a mile and a quarter, it is obvious that this consideration must have had no small weight with the directors, who eventually decided on proceeding with the Tubular Bridge according to Mr.

Stephenson"s original design.

From the first projection of the Victoria Bridge, the difficulties of executing such a work across a wide river, down which an avalanche of ice rushes to the sea every spring, were p.r.o.nounced almost insurmountable by those best acquainted with the locality. The ice of two thousand miles of inland lakes and upper rivers, besides their tributaries, is then poured down stream, and, in the neighbourhood of Montreal especially, it is often piled up to the height of from forty to fifty feet, placing the surrounding country under water, and doing severe damage to the ma.s.sive stone buildings along the n.o.ble river front of the city. To resist so prodigious a pressure, it was necessary that the piers of the proposed bridge should be of the most solid and ma.s.sive description. Their foundations are placed in the solid rock; for none of the artificial methods of obtaining foundations, suggested by some engineers for cheapness" sake, were found practicable in this case. Where the force exercised against the piers was likely to be so great, it was felt that timber ice-breakers, timber or cast-iron piling, or even rubble-work, would have proved but temporary expedients. The two centre piers are eighteen feet wide, and the remaining twenty-two piers fifteen feet; to arrest and break the ice, an inclined plane, composed of great blocks of stone, was added to the up-river side of each pier-each block weighing from seven to ten tons, and the whole were firmly clamped together with iron rivets.

To convey some idea of the immense force which these piers are required to resist, we may briefly describe the breaking up of the ice in March, 1858, while the bridge was under construction. Fourteen out of the twenty-four piers were then finished, together with the formidable abutments and approaches to the bridge. The ice in the river began to show signs of weakness on the 29th March, but it was not until the 31st that a general movement became observable, which continued for an hour, when it suddenly stopped, and the water rose rapidly. On the following day, at noon, a grand movement commenced; the waters rose about four feet in two minutes, up to a level with many of the Montreal streets. The fields of ice at the same time were suddenly elevated to an incredible height; and so overwhelming were they in appearance, that crowds of the townspeople, who had a.s.sembled on the quay to watch the progress of the flood, ran for their lives. This movement lasted about twenty minutes, during which the jammed ice destroyed several portions of the quay-wall, grinding the hardest blocks to atoms. The embanked approaches to the Victoria Bridge had tremendous forces to resist. In the full channel of the stream, the ice in its pa.s.sage between the piers was broken up by the force of the blow immediately on its coming in contact with the cut.w.a.ters. Sometimes thick sheets of ice were seen to rise up and rear on end against the piers, but by the force of the current they were speedily made to roll over into the stream, and in a moment after were out of sight. For the two next days the river was still high, until on the 4th April the waters seemed suddenly to give way, and by the following day the river was flowing clear and smooth as a millpond, nothing of winter remaining except the ma.s.ses of bordage ice which were strewn along the sh.o.r.es of the stream. On examination of the piers of the bridge, it was found that they had admirably resisted the tremendous pressure; and though the timber "cribwork" erected to facilitate the placing of floating pontoons to form the dams, was found considerably disturbed and in some places seriously damaged, the piers, with the exception of one or two heavy stone blocks, which were still unfinished, escaped uninjured. One heavy block of many tons" weight was carried to a considerable distance, and must have been torn out of its place by sheer force, as several of the broken fragments were found left in the pier.

The works in connection with the Victoria Bridge were begun on the 22nd July, 1854, when the first stone was laid, and continued uninterruptedly during a period of 5 years, until the 17th December, 1859, when the bridge was finished and taken off the contractor"s hands. It was formally opened for traffic early in 1860; though Robert Stephenson did not live to see its completion.

The tubular system was also applied by the same engineer, in a modified form, in the two bridges across the Nile, near Damietta in Lower Egypt.

That near Benha contains eight spans or openings of 80 feet each, and two centre spans, formed by one of the largest swing bridges ever constructed,-the total length of the swing-beam being 157 feet,-a clear water-way of 60 feet being provided on either side of the centre pier.

The only novelty in these bridges consisted in the road being carried _upon_ the tubes instead of within them; their erection being carried out in the usual manner, by means of workmen, materials, and plant sent out from England.

During the later years of his life, Mr. Stephenson took considerable interest in public affairs and in scientific investigations. In 1847 he entered the House of Commons as member for Whitby; but he does not seem to have been very devoted in his attendance, and only appeared on divisions when there was a "whip" of the party to which he belonged. He was a member of the Sanitary and Sewage Commissions, and of the Commission which sat on Westminster Bridge. The last occasions on which he addressed the House were on the Suez Ca.n.a.l and the cleansing of the Serpentine. He p.r.o.nounced the Suez Ca.n.a.l to be an impracticable scheme.

"I have surveyed the line," said he, "I have travelled the whole distance on foot, and I declare there is no fall between the two seas. Honourable members talk about a ca.n.a.l. A ca.n.a.l is impossible-the thing would only be a ditch."

Besides constructing the railway between Alexandria and Cairo, he was consulted, like his father, by the King of Belgium, as to the railways of that country; and he was made Knight of the Order of Leopold because of the improvements which he had made in locomotive engines, so much to the advantage of the Belgian system of inland transit. He was consulted by the King of Sweden as to the railway between Christiana and Lake Miosen, and in consideration of his services was decorated with the Grand Cross of the Order of St. Olaf. He also visited Switzerland, Piedmont, and Denmark, to advise as to the system of railway communication best suited for those countries. At the Paris Exhibition of 1855 the Emperor of France decorated him with the Legion of Honour in consideration of his public services; and at home the University of Oxford made him a Doctor of Civil Laws. In 1855 he was elected President of the Inst.i.tute of Civil Engineers, which office he held with honour and filled with distinguished ability for two years, giving place to his friend Mr. Locke at the end of 1857.

Mr. Stephenson was frequently called upon to act as arbitrator between contractors and railway companies, or between one company and another,-great value being attached to his opinion on account of his weighty judgment, his great experience, and his upright character, and we believe his decisions were invariably stamped by the qualities of impartiality and justice. He was always ready to lend a helping hand to a friend, and no petty jealousy stood between him and his rivals in the engineering world. The author remembers being with Mr. Stephenson one evening at his house in Gloucester Square, when a note was put into his hands from his friend Brunel, then engaged in his first fruitless efforts to launch the _Great Eastern_. It was to ask Stephenson to come down to Blackwall early next morning, and give him the benefit of his judgment.

Shortly after six next morning Stephenson was in Scott Russell"s building-yard, and he remained there until dusk. About midday, while superintending the launching operations, the baulk of timber on which he stood canted up, and he fell up to his middle in the Thames mud. He was dressed as usual, without great-coat (though the day was bitter cold), and with only thin boots upon his feet. He was urged to leave the yard, and change his dress, or at least dry himself; but with his usual disregard of health, he replied, "Oh, never mind me-I"m quite used to this sort of thing;" and he went paddling about in the mud, smoking his cigar, until almost dark, when the day"s work was brought to an end. The result of this exposure was an attack of inflammation of the lungs, which kept him to his bed for a fortnight.

He was habitually careless of his health, and perhaps he indulged in narcotics to a prejudicial extent. Hence he often became "hipped" and sometimes ill. When Mr. Sopwith accompanied him to Egypt in the _t.i.tania_, in 1856, he succeeded in persuading Mr. Stephenson to limit his indulgence in cigars and stimulants, and the consequence was that by the end of the voyage he felt himself, as he said, "quite a new man."

Arrived at Ma.r.s.eilles, he telegraphed from thence a message to Great George Street, prescribing certain stringent and salutary rules for observance in the office there on his return. But he was of a facile, social disposition, and the old a.s.sociations proved too strong for him.

When he sailed for Norway, in the autumn of 1859, though then ailing in health, he looked a man who had still plenty of life in him. By the time he returned, his fatal illness had seized him. He was attacked by congestion of the liver, which first developed itself in jaundice, and then ran into dropsy, of which he died on the 12th October, in the fifty-sixth year of his age. {368} He was buried by the side of Telford in Westminster Abbey, amidst the departed great men of his country, and was attended to his resting-place by many of the intimate friends of his boyhood and his manhood. Among those who a.s.sembled round his grave were some of the greatest men of thought and action in England, who embraced the sad occasion to pay the last mark of their respect to this ill.u.s.trious son of one of England"s greatest working men.

[Picture: Robert Stephenson"s Burial-place in Westminster Abbey]

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