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Forth Bridge

October 02, 2023

Not to be confused with Fourth Bridge.
This article is about the railway bridge. For the road bridge, see Forth Road Bridge. For other uses, see Forth Bridge (disambiguation).

The Forth Bridge[2] is a cantilever railway bridge across the Firth of Forth in the east of Scotland, 9 miles (14 kilometres) west of central Edinburgh. Completed in 1890, it is considered a symbol of Scotland (having been voted Scotland's greatest man-made wonder in 2016), and is a UNESCO World Heritage Site.[3] It was designed by English engineers Sir John Fowler and Sir Benjamin Baker.[4] It is sometimes referred to as the Forth Rail Bridge (to distinguish it from the adjacent Forth Road Bridge), although this has never been its official name.

Forth Bridge
Coordinates56°00′01″N 3°23′19″W / 56.0004°N 3.3886°W / 56.0004; -3.3886
CarriesRail traffic
CrossesFirth of Forth
LocaleEdinburgh, Inchgarvie and Fife, Scotland
OwnerNetwork Rail
Maintained byBalfour Beatty under contract to Network Rail
Characteristics
DesignCantilever bridge
Total length8,094 feet (2,467 m)[1]
Width120 ft (37 m) at piers[1]
32 ft (9.8 m) at centre[1]
Height361 ft (110 m) above high water[1]
Longest spanTwo of 1,700 feet (520 m)[1]
Clearance below150 ft (46 m) to high water[1]
History
DesignerSir John Fowler and
Sir Benjamin Baker
Construction start1882
Construction endDecember 1889
Opened4 March 1890
Statistics
Daily traffic190–200 trains per day
Official nameThe Forth Bridge
TypeCultural
Criteriai, iv
Designated2015
Reference no.1485
Listed Building – Category A
Official nameForth Bridge
Designated18 June 1973
Reference no.LB40370
Location

Construction of the bridge began in 1882 and it was opened on 4 March 1890 by the Duke of Rothesay, the future Edward VII. The bridge carries the Edinburgh–Aberdeen line across the Forth between the villages of South Queensferry and North Queensferry and has a total length of 8,094 feet (2,467 m). When it opened it had the longest single cantilever bridge span in the world, until 1919 when the Quebec Bridge in Canada was completed. It continues to be the world's second-longest single cantilever span, with a span of 1,709 feet (521 m).

The bridge and its associated railway infrastructure are owned by Network Rail.[5]

Background Edit

Earlier proposals Edit

Main article: History of the Forth Crossing

Before the construction of the bridge, ferries were used to cross the Firth.[6] In 1806, a pair of tunnels, one for each direction, was proposed, and in 1818 James Anderson produced a design for a three-span suspension bridge close to the site of the present one.[7] Calling for approximately 2,500 tonnes (2,500 long tons; 2,800 short tons) of iron, Wilhelm Westhofen said of it "and this quantity [of iron] distributed over the length would have given it a very light and slender appearance, so light indeed that on a dull day it would hardly have been visible, and after a heavy gale probably no longer to be seen on a clear day either".[8]

 
Close up on the base of one of the three double-cantilevers of the bridge

For the railway age, Thomas Bouch designed for the Edinburgh and Northern Railway a roll-on/roll-off ferry between Granton and Burntisland that opened in 1850, which proved so successful that another was ordered for the Tay.[9] In late 1863, a joint project between the North British Railway and Edinburgh and Glasgow Railway, which would merge in 1865, appointed Stephenson and Toner to design a bridge for the Forth, but the commission was given to Bouch around six months later.[10]

It had proven difficult to engineer a suspension bridge that was able to carry railway traffic, and Thomas Bouch, engineer to the North British Railway (NBR) and Edinburgh and Glasgow Railway, was in 1863–1864 working on a single-track girder bridge crossing the Forth near Charlestown, where the river is around 2 miles (3.2 km) wide, but mostly relatively shallow.[10][11] The promoters, however, were concerned about the ability to set foundations in the silty river bottom, as borings had gone as deep as 231 feet (70 m) into the mud without finding any rock, but Bouch conducted experiments to demonstrate that it was possible for the silt to support considerable weight.[12] Experiments in late 1864 with weighted caissons achieved a pressure of 5 t/sq ft (4.9 long ton/sq ft; 5.5 short ton/sq ft) on the silt, encouraging Bouch to continue with the design.[12] In August 1865, Richard Hodgson, chairman of the NBR, proposed that the company invest £18,000 to try a different kind of foundation, as the weighted caissons had not been successful.[13] Bouch proposed using a large pine platform underneath the piers, 80 by 60 by 7 feet (24.4 m × 18.3 m × 2.1 m) (the original design called for a 114 by 80 by 9 feet (34.7 m × 24.4 m × 2.7 m) platform of green beech) weighed down with 10,000 tonnes (9,800 long tons; 11,000 short tons) of pig iron which would sink the wooden platform to the level of the silt.[12] The platform was launched on 14 June 1866 after some difficulty in getting it to move down the greased planks it rested on, and then moored in the harbour for six weeks pending completion.[12][14] The bridge project was aborted just before the platform was sunk as the NBR expected to lose "through traffic" following the amalgamation of the Caledonian Railway and the Scottish North Eastern Railway.[12] In September 1866, a committee of shareholders investigating rumours of financial difficulties found that accounts had been falsified, and the chairman and the entire board had resigned by November.[15] By mid-1867 the NBR was nearly bankrupt, and all work on the Forth and Tay bridges was stopped.[16]

 
Bouch's proposed bridge (top) along with other proposals on the same principle

The North British Railway took over the ferry at Queensferry in 1867, and completed a rail link from Ratho in 1868, establishing a contiguous link with Fife.[17] Interest in bridging the Forth increased again, and in 1871 Bouch proposed a stiffened steel suspension bridge on roughly the same line as taken by the present rail bridge. This design was examined and pronounced acceptable by W. H. Barlow and William Pole, both "eminent" civil engineers, and Parliament passed in August 1873 an act authorising its construction.[17][18] Work started in September 1878, in the form of a brick pier at the western end of the mid-Forth island of Inchgarvie.[17]

After the Tay Bridge collapsed in 1879, confidence in Bouch dried up and the work stopped.[17] The public inquiry into the disaster, chaired by Henry Cadogan Rothery, found the Tay Bridge to be "badly designed, badly constructed and badly maintained", with Bouch being "mainly to blame" for the defects in construction and maintenance and "entirely responsible" for the defects in design.[19] In particular, Bouch had failed to properly account for the effect that high winds would have on the bridge, and in response to this finding the Board of Trade imposed a requirement that all bridges be designed to accept a lateral wind loading of 56 lb/sq ft (270 kg/m2).[20]

Bouch's 1871 design for the Forth Bridge fell significantly short of this figure, as – on the advice of the Astronomer Royal – he had assumed a wind loading of only 10 lb/sq ft (49 kg/m2).[21] This had been accepted by Barlow and Pole in their 1873 assessment of the design, though they qualified in their report that "[while] we raise no object to Mr Bouch's system, we do not commit ourselves to an opinion that it is the best possible".[21][note 1]

Bouch's design was formally abandoned on 13 January 1881, and Sir John Fowler, W. H. Barlow, and T. E. Harrison, consulting engineers to the project, were invited to propose new designs.[23][24] Bouch's Inchgarvie pier was left in place, protruding approximately 7 ft (2 m) from the water at high tide. It lies directly under the present bridge and was equipped with a small navigational light c. 1887.[25][26]

Design Edit

 
The original (above) and final (below) designs of the Forth Bridge

Dimensions Edit

The bridge spans the Forth between the villages of South Queensferry and North Queensferry and has a total length of 8,094 feet (2,467 m)[1] with the double track elevated 150 feet (45.72 m) above the water level at high tide. It consists of two main spans of 1,700 feet (518.16 m), two side spans of 680 ft (207.3 m), and 15 approach spans of 168 ft (51.2 m).[1][27] Each main span consists of two 680 ft (207.3 m) cantilever arms supporting a central 350 feet (106.7 m) span truss. The weight of the bridge superstructure was 50,513 long tons (51,324 t), including the 6.5 million rivets used.[27] The bridge also used 640,000 cubic feet (18,122 m3) of granite.[28]

The three great four-tower cantilever structures are 361 feet (110.03 m) tall,[1] each tower resting on a separate granite pier. These were constructed using 70 ft (21 m) diameter caissons; those for the north cantilever and two on the small uninhabited island of Inchgarvie acted as cofferdams, while the remaining two on Inchgarvie and those for the south cantilever, where the river bed was 91 ft (28 m) below high-water level, used compressed air to keep water out of the working chamber at the base.[29]

 
Comparison of the side elevations of the Forth Bridge and some notable bridges at the same scale. (click for interactive version)

Engineering principles Edit

 
Illustration of the cantilever principle

The bridge is built on the principle of the cantilever bridge, where a cantilever beam supports a light central girder, a principle that has been used for thousands of years in the construction of bridges.[30] In order to illustrate the use of tension and compression in the bridge, a demonstration in 1887 had the Japanese engineer Kaichi Watanabe supported between Fowler and Baker sitting in chairs.[31] Fowler and Baker represent the cantilevers, with their arms in tension and the sticks under compression, and the bricks the cantilever end piers which are weighted with cast iron.[32]

Materials Edit

The bridge was the first major structure in Britain to be constructed of steel;[33] its French contemporary, the Eiffel Tower, was built of wrought iron.[34] Large amounts of steel became available after the invention of the Bessemer process, patented in 1856.[35] In 1859, the Board of Trade imposed a limit of 77.22 N/mm2 (5 LTf/in2) for the maximum design stress in railway bridges; this was revised as technology progressed.[36]

The original design required 42,000 tonnes (41,000 long tons; 46,000 short tons) for the cantilevers only, of which 12,000 tonnes (12,000 long tons; 13,000 short tons) was to come from Siemens' steel works in Landore, Wales and the remainder from the Steel Company of Scotland's works near Glasgow.[37] When modifications to the design necessitated a further 16,000 tonnes (16,000 long tons; 18,000 short tons), about half of this was supplied by the Steel Company of Scotland Ltd. and half by Dalzell's Iron and Steel Works in Motherwell.[38] About 4,200 tonnes (4,100 long tons; 4,600 short tons) of rivets came from the Clyde Rivet Company of Glasgow.[38] Around three or four thousand tons of steel was scrapped, some of which was used for temporary purposes, resulting in the discrepancy between the quantity delivered and the quantity erected.[38]

Approaches Edit

 
The southern approach to the Forth Bridge, designed by James Carswell

After Dalmeny railway station, the track curves very slightly to the east before coming to the southern approach viaduct.[39] After the railway crosses the bridge, it passes through North Queensferry railway station, before curving to the west, and then back to the east over the Jamestown Viaduct.[39]

The approaches were built under separate contract and were to the design of the engineer James Carswell.[40] The supports of the approach viaducts are tapered to prevent the impression of the columns widening as they approach the top, and an evaluation of the aesthetics of the Bridge in 2007, by A D Magee of the University of Bath, identified that order was present throughout, and this included in the approach viaducts. Magee points out that the masonry was carefully planned, and has neat block work even in areas not immediately visible from the ground.[41]: 6 

Construction Edit

 
A view from South Queensferry of the bridge's cantilever towers being built in 1887.

The Bill for the construction of the bridge was passed on 19 May 1882 after an eight-day enquiry, the only objections being from rival railway companies.[42] On 21 December, the contract was let to Sir Thomas Tancred, T. H. Falkiner and Joseph Philips, civil engineers and contractor, and Sir William Arrol & Co.[43] Arrol was a self-made man, who had been apprenticed to a blacksmith at the age of thirteen before going on to have a highly successful business.[44] Tancred was a professional engineer who had worked with Arrol before, but he would leave the partnership during the course of construction.[45]

The steel was produced by Frederick and William Siemens (England) and Pierre and Emile Martin (France). Following advances in furnace design by the Siemens brothers and improvements by the Martin brothers, the process of manufacture enabled high quality steel to be produced very quickly.[46][47][48]

Preparations Edit

 
The cantilever towers are almost finished in 1888.

The new works took possession of offices and stores erected by Arrol in connection with Bouch's bridge; these were expanded considerably over time.[49] Reginald Middleton took an accurate survey to establish the exact position of the bridge and allow the permanent construction work to commence.[50][51]

The old coastguard station at the Fife end had to be removed to make way for the north-east pier.[25] The rocky shore was levelled to a height of 7 feet (2.1 m) above high water to make way for plant and materials, and huts and other facilities for workmen were set up further inland.[25]

The preparations at South Queensferry were much more substantial, and required the steep hillside to be terraced.[25] Wooden huts and shops for the workmen were put up, as well as more substantial brick houses for the foremen and tenements for leading hands and gangers.[25] Drill roads and workshops were built, as well as a drawing loft 200 by 60 feet (61 by 18 m) to allow full size drawings and templates to be laid out.[25] A cable was also laid across the Forth to allow telephone communication between the centres at South Queensferry, Inchgarvie, and North Queensferry, and girders from the collapsed Tay Bridge were laid across the railway to the west in order to allow access to the ground there.[25] Near the shore a sawmill and cement store were erected, and a substantial jetty around 2,100 feet (640 m) long was started early in 1883, and extended as necessary, and sidings were built to bring railway vehicles among the shops, and cranes set up to allow the loading and movement of material delivered by rail.[25]

In April 1883, construction of a landing stage at Inchgarvie commenced.[25] Extant buildings, including fortifications built in the 15th century, were roofed over to increase the available space, and the rock at the west of the island was cut down to a level seven feet (2.1 m) above high water, and a seawall was built to protect against large waves.[25] In 1884 a compulsory purchase order was obtained for the island, as it was found that previously available area enclosed by the four piers of the bridge was insufficient for the storage of materials.[25] Iron staging reinforced wood in heavily used areas was put up over the island, eventually covering around 10,000 square yards (8,400 m2) and using over 1,000 tonnes (980 long tons; 1,100 short tons) of iron.[52]

Movement of materials Edit

The bridge uses 55,000 tonnes (54,000 long tons; 61,000 short tons) of steel and 140,000 cubic yards (110,000 m3) of masonry.[52] Many materials, including granite from Aberdeen, Arbroath rubble, sand, timber, and sometimes coke and coal, could be taken straight to the centre where they were required.[52] Steel was delivered by train and prepared at the yard at South Queensferry, painted with boiled linseed oil, and was then taken to where it was needed by barge.[52] The cement used was Portland cement manufactured on the Medway.[53] It required to be stored before it was able to be used, and up to 1,200 tonnes (1,200 long tons; 1,300 short tons) of cement could be kept in a barge, formerly called the Hougoumont that was moored off South Queensferry.[53]

For a time a paddle steamer was hired for the movement of workers, but after a time it was replaced with one capable of carrying 450 men, and the barges were also used for people carrying.[52] Special trains were run from Edinburgh and Dunfermline, and a steamer ran to Leith in the summer.[52]

Circular piers Edit

 
A completed caisson on Inchgarvie with the granite pier

The three towers of the cantilever are each seated on four circular piers. Since the foundations were required to be constructed at or below sea level, they were excavated with the assistance of caissons and cofferdams.[53] Caissons were used at locations that were either always under water, even at low tide, or where the foundations were to be built on mud and clay. Cofferdams were used where rock was nearer to the surface, and it was possible to work in low tide.[41]

Six caissons were excavated by the pneumatic process, by the French contractor L. Coisea.[54][55] This process used a positive air pressure inside a sealed caisson to allow dry working conditions at depths of up to 89 feet (27 m).[55][56]

These caissons were constructed and assembled in Glasgow by the Arrol Brothers, namesakes of but unconnected to W. Arrol, before being dismantled and transported to South Queensferry.[54][57] The caissons were then built up to a large extent before being floated to their final resting-places.[58] The first caisson, for the south-west pier at South Queensferry was launched on 26 May 1884, and the last caisson was launched on 29 May 1885 for the south-west pier at Inchgarvie.[58] When the caissons had been launched and moored, they were extended upwards with a temporary portion in order to keep water out and allow the granite pier to be built when in place.[58]

Above the foundations each of which is different to suit the different sites, is a tapered circular granite pier with a diameter of 55 feet (17 m) at the bottom and a height of 36 feet (11 m).[59]

Inchgarvie Edit

The rock on which the two northern piers at Inchgarvie are located is submerged at high water, and of the other two piers, the site of eastern one is about half submerged and the western one three-quarters submerged.[60] This meant work initially had to be done at low tide.[60]

The southern piers on Inchgarvie are sited on solid rock with a slope of around 1 in 5, so the rock was prepared with concrete and sandbags to make a landing-spot for the caissons.[61][62] Excavation was carried out by drilling and blasting, but no blasting was done within 1.5 ft (0.46 m) of the caissons, and the remaining rock was quarried to within 6 in (150 mm).[60]

North Queensferry Edit

Once the positions of the piers had been established, the first task at the Fife end was to level the site of the northernmost piers, a bedrock of whinstone rising to a level of 10 to 20 feet (3.0 to 6.1 m) above high water, to a height of 7 feet (2.1 m) above high water.[53] The south piers at North Queensferry are sited on rock sloping into the sea, and the site was prepared by diamond drilling holes for explosive charges and blasting the rock.[60]

South Queensferry Edit

 
The tilted caisson
 
The mode of sinking the South Queensferry caissons

The four South Queensferry caissons were all sunk by the pneumatic method, and are identical in design except for differences in height.[54] A T shaped jetty was built at the site of the South Queensferry piers, to allow one caisson to be attached to each corner, and when launched the caissons were attached to the jetty and permitted to rise and fall with the tide.[58][63] Excavation beneath the caissons was generally only carried out at high tide when the caisson was supported by buoyancy, and then when the tide fell the air pressure was reduced in order to allow the caisson to sink down, and digging would begin anew.[56]

The north-west caisson was towed into place in December 1884, but an exceptionally low tide on New Year's Day 1885 caused the caisson to sink into the mud of the river bed and adopt a slight tilt.[61] When the tide rose, it flooded over the lower edge, filling the caisson with water, and when the tide fell but the water did not drain from the caisson, its top-heaviness caused to tilt further.[61] Plates were bolted on by divers to raise the edge of the caisson above water level, and the caisson was reinforced with wooden struts as water was pumped out, but pumping took place too quickly and the water pressure tore a hole between 25 and 30 feet (7.6 and 9.1 m) long.[61] It was decided to construct a "barrel" of large timbers inside the caisson to reinforce it, and it was ten months before the caisson could be pumped out and dug free.[61] The caisson was refloated on 19 October 1885, and then moved into position and sunk with suitable modifications.[61]

Approach viaducts Edit

The approach viaducts to the north and south had to be carried at 130 feet 6 inches (39.78 m) above the level of high water, and it was decided to build them at a lower level and then raise them in tandem with the construction of the masonry piers.[64] The two viaducts have fifteen spans between them, each one 168 feet (51 m) long and weighing slightly over 200 tonnes (200 long tons; 220 short tons).[64] Two spans are attached together to make a continuous girder, with an expansion joint between each pair of spans.[64] Due to the slope of the hill under the viaducts, the girders were assembled at different heights, and only joined when they had reached the same level.[65] Lifting was done using large hydraulic rams, and took place in increments of around 3 feet 6 inches (1.07 m) every four days.[65]

Building the cantilevers Edit

The tubular members were constructed in the No. 2 workshop further up the hill at South Queensferry.[66] To bend plates into the required shape, they were first heated in a gas furnace, and then pressed into the correct curve.[66] The curved plates were then assembled on a mandrel, and holes drilled for rivets, before they were marked individually and moved to the correct location to be added to the structure.[66] Lattice members and other parts were also assembled at South Queensferry, using cranes and highly efficient hydraulic rivetters.[67]

Opening Edit

The bridge was completed in December 1889, and load testing of the completed bridge was carried out on 21 January 1890. Two trains, each consisting of three heavy locomotives and 50 wagons loaded with coal, totalling 1,880 tons in weight, were driven slowly from South Queensferry to the middle of the north cantilever, stopping frequently to measure the deflection of the bridge. This represented more than twice the design load of the bridge: the deflection under load was as expected.[29] A few days previously there had been a violent storm, producing the highest wind pressure recorded to date at Inchgarvie, and the deflection of the cantilevers had been less than 25 mm (1 in). The first complete crossing took place on 24 February, when a train consisting of two carriages carrying the chairmen of the railway companies involved made several crossings. The bridge was opened on 4 March 1890 by the Duke of Rothesay, later King Edward VII, who drove home the last rivet, which was gold plated and suitably inscribed.[28] The key for the official opening was made by Edinburgh silversmith John Finlayson Bain, commemorated in a plaque on the bridge. When it opened it had the longest single cantilever bridge span in the world,[68] until 1919 when the Quebec Bridge in Canada was completed.[69] It continues to be the world's second-longest single cantilever span, with a span of 1,709 feet (521 m).[70]

Main article: Forth Bridge approach railways

To make the fullest use of the bridge, several new railway connections were built, bringing main line routes to the bridge. The construction of some of these lines was only completed on 2 June 1890, delaying the implementation of a full express train service over the bridge until that date. Even then, there was considerable congestion at Edinburgh Waverley station with remarshalling of the portions of the new, more intensive train service.[71]

Accidents and deaths Edit

At its peak, approximately 4,600 workers were employed in the bridge's construction. Wilhelm Westhofen recorded in 1890 that 57 people died. In 2005 the Forth Bridge Memorial Committee was set up to erect a monument to those lost, and a team of local historians set out to name all those who died.[72] As of 2009, 73 deaths have been connected with the construction of the bridge and its immediate aftermath.[73] It is thought that the figure of 57 deaths excluded those who died working on the approaches to the bridge, as those parts were completed by a subcontractor, as well as those who died after the Sick and Accident Club stopped.[73] Of the 73 recorded deaths, 38 were as a result of falling, 9 of being crushed, 9 drowned, 8 struck by a falling object, 3 died in a fire in a bothy, 1 of caisson disease, and the cause of five deaths is unknown.[74]

The Sick and Accident Club was founded in 1883, and membership was compulsory for all contractors' employees.[75] It would provide medical treatment to men and sometimes their families, and pay them if they were unable to work.[75] The club also paid for funerals within certain limits, and would provide grants to the widows of men killed or the wives of those permanently disabled.[75] Eight men were saved from drowning by rowing boats positioned in the river under the working areas.[52]

In 2019, it was reported historians of the Queensferry Historian Group had discovered at least 21 more men died building the Forth Bridge than was previously thought, in an alleged "cover up" of the true human cost of the structure, taking the new death toll to 78.[76] Tragically, this arguably makes the Forth Bridge a more deadly structure than the failed Tay Bridge when counting both the 59 known deaths attributed to the Tay Bridge Disaster, that led to the earlier proposal for the Forth Bridge construction being halted and subsequently redesigned, combined with the 14 deaths during its construction.[77]

Later history Edit

Race to the North Edit

Before the opening of the Forth Bridge, the railway journey from London to Aberdeen had taken about 13 hours running from Euston and using the London and North Western Railway and Caledonian Railway on a west coast route. With competition opened up along the east coast route from the Great Northern, North Eastern and North British railways and starting from King's Cross, unofficial racing took place between the two consortia, reducing the journey time to about 812 hours on the overnight runs. This reached a climax in 1895 with sensational daily press reports about the "Race to the North". When race fever subsided the journey times became around 1012 hours.[78]

World wars Edit

 
A German photograph allegedly taken during the raid

In the First World War British sailors would time their departures or returns to the base at Rosyth by asking when they would pass under the bridge.[79] The first German air attack on Britain in the Second World War took place over the Forth Bridge, six weeks into the war, on 16 October 1939. Although known as the "Forth Bridge Raid", the bridge was not the target and not damaged. In all, 12 German Junkers Ju 88 bombers led by two reconnaissance Heinkel He 111s from Westerland on the island of Sylt, 460 miles (400 nmi; 740 km) away, reached the Scottish coast in four waves of three.[80] The target of the attack was shipping from the Rosyth naval base in the Forth, about 2 miles (3.2 km) to the west of the bridge. The Germans were hoping to find HMS Hood, the largest capital ship in the Royal Navy. Luftwaffe rules of engagement restricted action to targets on water and not in the dockyard. Although HMS Repulse was in Rosyth, the attack was concentrated on the cruisers Edinburgh and Southampton, the carrier Furious and the destroyer Jervis.[81] The destroyer Mohawk and the cruisers, Southampton and Edinburgh were damaged. Sixteen Royal Navy crew died and 44 were wounded, although this information was not made public at the time.[82]

Spitfires from 603 "City of Edinburgh" Squadron RAF intercepted the raiders and during the attack shot down the first German aircraft downed over Britain in the war.[82] One bomber came down in the water off Port Seton on the East Lothian coast and another off Crail on the coast of Fife. After the War it was learned that a third bomber had come down in the Netherlands as a result of damage inflicted during the raid. Later in the month, a reconnaissance Heinkel 111 crashed near Humbie in East Lothian and photographs of this crashed plane were, and still are, used erroneously to illustrate the raid of 16 October, thus sowing confusion as to whether a third aircraft had been brought down.[83] Members of the bomber crew at Port Seton were rescued and made prisoners-of-war. Two bodies were recovered from the Crail wreckage and after a full military funeral with firing party, were interred in Portobello cemetery, Edinburgh. The body of the gunner was never found.[84] A wartime propaganda film, Squadron 992, made by the GPO Film Unit after the raid, recreated it and conveyed the false impression that the main target was the bridge.[85]

Ownership Edit

 
A 1913 Railway Clearing House Junction Diagram showing the Forth Bridge Railway (red) and neighbouring lines of the North British Railway (blue)

Before the opening of the bridge, the North British Railway (NBR) had lines on both sides of the Firth of Forth between which trains could not pass except by running at least as far west as Alloa and using the lines of a rival company. The only alternative route between Edinburgh and Fife involved the ferry at Queensferry, which was purchased by the NBR in 1867. Accordingly, the NBR sponsored the Forth Bridge project which would give them a direct link independent of the Caledonian Railway.[86] A conference at York in 1881 set up the Forth Bridge Railway Committee, to which the NBR contributed 35% of the cost. The remaining money came from three English railways, which ran trains from London over NBR tracks. The Midland Railway, which connected to the NBR at Carlisle and which owned the route to London St Pancras, contributed 30%, and 17.5% came equally from each of the North Eastern Railway and the Great Northern Railway, which between them owned the route between Berwick-upon-Tweed and London King's Cross, via Doncaster. This body undertook to construct and maintain the bridge.[87]

In 1882 the NBR were given powers to purchase the bridge, which it never exercised.[86] At the time of the 1923 Grouping, the bridge was still jointly owned by the same four railways,[88][89] and so it became jointly owned by these companies' successors, the London Midland and Scottish Railway (30%) and the London and North Eastern Railway (70%).[90] The Forth Bridge Railway Company was named in the Transport Act 1947 as one of the bodies to be nationalised and so became part of British Railways on 1 January 1948.[91] Under the Act, Forth Bridge shareholders would receive £109 of British Transport stock for each £100 of Forth Bridge Debenture stock; and £104 17s 6d of British Transport stock for each £100 of Forth Bridge Ordinary stock.[92][93]

As of April 2017, the bridge and its associated railway infrastructure are owned by Network Rail Infrastructure Limited.[94]

Operation Edit

 
The approach to the bridge from Dalmeny Station
 
Inside the Forth Bridge as seen from a ScotRail Class 158

Traffic Edit

The bridge has a speed limit of 50 miles per hour (80 km/h) for high-speed trains and diesel multiple units, 40 miles per hour (64 km/h) for ordinary passenger trains and 30 miles per hour (48 km/h) for freight trains.[95][96] The route availability code is RA8, but freight trains above a certain size must not pass each other on the bridge.[97] Up to 190–200 trains per day crossed the bridge in 2006.[98]

Maintenance Edit

"Painting the Forth Bridge" is a colloquial expression for a never-ending task, coined on the erroneous belief that at one time in the history of the bridge repainting was required and commenced immediately upon completion of the previous repaint.[99] Such a practice never existed, as weathered areas were given more attention, but there was a permanent maintenance crew.[100] Between 2001 and 2011,[5][101] the bridge was covered in a new coating designed to last for 25 years, bringing an end to having painters as a regular part of the maintenance crew. Colin Hardie, of Balfour Beatty Construction, was reported as saying,[102][103]

For the first time in the bridge's history there will be no painters required on the bridge. Job done ...

— Colin Hardie, BBC News article, 5 September 2011

Restoration Edit

Floodlighting was installed in 1990,[104] and the track was renewed between 1992 and 1995.[100] The bridge was costing British Rail £1 million a year to maintain, and they announced that the schedule of painting would be interrupted to save money, and the following year, upon privatisation, Railtrack took over.[100] A £40 million package of works commenced in 1998, and in 2002 the responsibility of the bridge was passed to Network Rail.[100]

Work started in 2002 to repaint the bridge fully for the first time in its history, in a £130 million contract awarded to Balfour Beatty.[105][106] Up to 4,000 tonnes (3,900 long tons; 4,400 short tons) of scaffolding was on the bridge at any time, and computer modelling was used to analyse the additional wind load on the structure.[107] The bridge was encapsulated in a climate controlled membrane to give the proper conditions for the application of the paint.[108] All previous layers of paint were removed using copper slag fired at up to 200 miles per hour (320 km/h), exposing the steel and allowing repairs to be made.[108][109] The paint, developed specifically for the bridge by Leigh Paints, consisted of a system of three coats derived from that used in the North Sea oil industry;[108] a total of 240,000 litres (53,000 imp gal; 63,000 US gal) was applied to 255,000 square metres (2,740,000 sq ft) of the structure, and it is not expected to need repainting for at least 20 years.[106][108] The top coat can be reapplied indefinitely, minimising future maintenance work.[110]

 
Panoramic view of the Forth Bridge undergoing maintenance work in 2007

In a report produced by JE Jacobs, Grant Thornton and Faber Maunsell in 2007 which reviewed the alternative options for a second road crossing, it was stated that "Network Rail has estimated the life of the bridge to be in excess of 100 years. However, this is dependant [sic] upon NR's inspection and refurbishment works programme for the bridge being carried out year on year".[111]

In culture Edit

 
Original rivet from the Forth Bridge

In the media Edit

The Forth Bridge has been featured in television programmes and films, including Carry On Regardless, Alfred Hitchcock's 1935 film The 39 Steps, and its 1959 remake.[112] A.G. Barr used the bridge in posters advertising its soft drink Irn-Bru, with the slogan: "Made in Scotland, from girders".[113] In 2005, the BBC lit the Bridge in red for Comic Relief.[114] Also in 2005, Channel 4 documentary Jump Britain showed Sébastien Foucan, a French freerunner, crawling along one of the highest points of the bridge without a harness.[115] The first episode of the UK television series Britain's Greatest Bridges featured the Forth Bridge and was aired on Spike UK on 12 January 2017.[116]

In general culture Edit

The location of the Forth Bridge has seen it featured in other cultural forms. In the build up to the Millennium celebrations a countdown clock sponsored by the Royal Bank of Scotland was attached to the top of the Bridge in 1998.[117][118] Iain Banks wrote the novel The Bridge, which is mainly set on a fictionalised version of the bridge, which links "The City" (Edinburgh) and "The Kingdom" (Fife).[119] In Alan Turing's most famous paper about artificial intelligence, one of the challenges put to the subject of an imagined Turing test is "Please write me a sonnet on the subject of the Forth Bridge." The test subject in Turing's paper answers, "Count me out on this one. I never could write poetry."[120] The bridge is included in the video game Grand Theft Auto: San Andreas by Edinburgh-based developer Rockstar North. Renamed the Kincaid Bridge, it serves as the main railway bridge of the fictional city of San Fierro, and appears alongside a virtual Forth Road Bridge.[121]

 
D'Arcy Thompson used a figure of a bison skeleton when comparing it to the structural form of the Forth Bridge.[122]

In his 1917 book On Growth and Form, the mathematical biologist D'Arcy Thompson compares the structural form of the Forth Bridge with the cantilevered skeleton of an ox, the piers corresponding to legs, the cantilevers to the vertebral column:[122]

In a typical cantilever bridge, such as the Forth Bridge, a certain simplification is introduced. For each pier carries, in this case, its own double-armed cantilever, linked by a short connecting girder to the next, but so jointed to it that no weight is transmitted from one cantilever to another. The bridge in short is cut into separate sections, practically independent of one another ... In the horse or the ox, it is obvious that the two piers of the bridge, that is to say the fore-legs and the hind-legs, do not bear (as they do in the Forth Bridge) separate and independent loads, but the whole system forms a continuous structure.[122]

As heritage Edit

UNESCO inscribed the bridge as a World Heritage Site on 5 July 2015, recognising it as "an extraordinary and impressive milestone in bridge design and construction during the period when railways came to dominate long-distance land travel". It is the sixth World Heritage Site to be inscribed in Scotland.[123][68] In 2016, a VisitScotland survey voted the Forth Bridge "Scotland's greatest man-made wonder", beating off competition from Stirling Castle, the Caledonian Canal, the Scott Monument, Bell Rock Lighthouse, and Melrose Abbey.[124]

The Forth Bridge has appeared in representation on a 2004 one pound coin, issued by the Royal Mint.[125] The Bridge has also featured on banknotes including the 2007 series issued by the Bank of Scotland, which depicts different bridges in Scotland as examples of Scottish engineering, and the £20 note features the Forth Bridge.[126] In 2014 Clydesdale Bank announced the introduction of Britain's second polymer banknote, a £5 note featuring Sir William Arrol and the Forth Bridge (the first polymer banknote was issued by Northern Bank in 2000). It was introduced in 2015 to commemorate the 125th anniversary of the opening of the bridge, and its nomination to become a UNESCO World Heritage Site.[127]

"Forth Bridge" was used as a codeword to announce to the government the death of Prince Philip, Duke of Edinburgh in 2021.[128][129]

Visitor attraction Edit

Network Rail plans to add a visitor centre to the bridge, which would include a viewing platform on top of the North Queensferry side, or a bridge climbing experience to the South Queensferry side.[130] In December 2014 it was announced Arup had been awarded the design contract for the project.[131] In September 2019, Network Rail submitted plans to build a visitor centre at the South Queensferry side that would serve as a base for the bridge climbing experience, dubbed "The Forth Bridge Experience.[132] The plans were approved in early 2020 but were put on hold due to the COVID-19 pandemic.[133] Revised plans were submitted in February 2022.[134]

See also Edit

Notes Edit

  1. ^ J. S. Shipway states in Paxton 1990 that the 10 lb/sq ft figure "[seems] to have been the norm for design in the UK at that time", and notes that Bouch's design "seemingly gained Parliamentary and Board of Trade approval without any detailed invesitgation other than the private report by Barlow and Pole ..."[22]

References Edit

Citations Edit

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  3. ^ "The Forth Bridge". UNESCO World Heritage Centre. Retrieved 26 May 2020.
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  5. ^ a b "The history of the Forth Bridge, Fife". Network Rail. Retrieved 26 May 2020.
  6. ^ McKean 2006, p. 58
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  8. ^ Westhofen 1890, p. 1
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  11. ^ Paxton 1990, pp. 24–27
  12. ^ a b c d e Paxton 1990, p. 29
  13. ^ McKean 2006, pp. 73–74
  14. ^ McKean 2006, p. 77
  15. ^ McKean 2006, p. 78
  16. ^ McKean 2006, p. 81
  17. ^ a b c d Paxton 1990, p. 32
  18. ^ The Forth Bridge Railway Act 1873, 36 & 37 Vict. c. ccxxxvii.
  19. ^ Summerhayes 2010, p. 7
  20. ^ Paxton 1990, p. 41
  21. ^ a b Paxton 1990, pp. 44–45
  22. ^ Paxton 1990, p. 44.
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  24. ^ "History of the Forth Bridge". forth-bridges.co.uk. Forth Bridges Forum. 2015. Retrieved 26 March 2017. the momentum for a crossing had grown and a new design, by John Fowler and Benjamin Baker, was submitted to the Forth Bridge Company in May 1881, with construction authorised by Parliament in July 1882.
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  103. ^ Chu, Henry (26 January 2012). "Scotland can stop painting its Forth Rail Bridge". Los Angeles Times. Retrieved 13 August 2015.
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  134. ^ Smith, Roger (11 February 2022). "Revised planning application for Forth Bridge Experience". RailAdvent. Retrieved 14 February 2022.

Bibliography Edit

  • Blanc, Alan; McEvoy, Michael; Plank, Roger (2003). Architecture and Construction in Steel. Taylor & Francis. ISBN 978-1-135-82839-4.
  • Glen, Ann; Bowman, Craig; Andrew, John (2012). Forth Bridge: Restoring an Icon. Lily Publications. ISBN 978-1-907945-19-9.
  • Harding, J. E.; Gerard, Parke; Ryall, M (2006). Bridge Management: Inspection, maintenance, assessment and repair. CRC Press. ISBN 978-0-203-97354-7.
  • McKean, Charles (2006). Battle for the North. Granta Books. ISBN 978-1-86207-852-9.
  • Nock, Oswald S. (1958). The Railway Race to the North. Ian Allan.
  • Paxton, Roland, ed. (1990). 100 Years of the Forth Bridge. London: Thomas Telford. ISBN 978-0-7277-1600-2. OCLC 23022039. OL 7866621M.
  • Summerhayes, Stuart (2010). Design Risk Management. John Wiley & Sons. ISBN 978-1-4443-1890-6.
  • Westhofen, Wilhem (1890). "Contents". The Forth Bridge. Offices of "Engineering".
  • Wills, Elspeth M. (2009). The Briggers: The Story of the Men Who Built the Forth Bridge. Birlinn. ISBN 978-1-84158-761-5.

Further reading Edit

  • Kelly, Peter (April 1983). "A mountain of scrap for Serpell?". Rail Enthusiast. EMAP National Publications. pp. 34–39. OCLC 49957965.
  • MacKay, Sheila (2011). The Forth Bridge: A Picture History. Birlinn. ISBN 978-1-84158-935-0.
  • Winchester, Clarence, ed. (1935). "The Forth Bridge". Railway Wonders of the World. pp. 432–441.

External links Edit

 
Wikimedia Commons has media related to Forth Bridge.
  • 40 black-and-white photographs of the construction of the Forth Bridge taken in 1886–1887 by Philip Phillips at National Library of Scotland
  • Forth Bridge at Forth Bridges Visitor Centre Trust
  • Forth Rail Bridge at Structurae
  • Scottish Poetry Library: Poetry Map of Scotland (Firth of Forth): The Construction of the Forth Bridge, 1882–1890, by Colin Donati

October 02, 2023
forth, bridge, confused, with, fourth, bridge, this, article, about, railway, bridge, road, bridge, forth, road, bridge, other, uses, disambiguation, cantilever, railway, bridge, across, firth, forth, east, scotland, miles, kilometres, west, central, edinburgh. Not to be confused with Fourth Bridge This article is about the railway bridge For the road bridge see Forth Road Bridge For other uses see Forth Bridge disambiguation The Forth Bridge 2 is a cantilever railway bridge across the Firth of Forth in the east of Scotland 9 miles 14 kilometres west of central Edinburgh Completed in 1890 it is considered a symbol of Scotland having been voted Scotland s greatest man made wonder in 2016 and is a UNESCO World Heritage Site 3 It was designed by English engineers Sir John Fowler and Sir Benjamin Baker 4 It is sometimes referred to as the Forth Rail Bridge to distinguish it from the adjacent Forth Road Bridge although this has never been its official name Forth BridgeCoordinates56 00 01 N 3 23 19 W 56 0004 N 3 3886 W 56 0004 3 3886CarriesRail trafficCrossesFirth of ForthLocaleEdinburgh Inchgarvie and Fife ScotlandOwnerNetwork RailMaintained byBalfour Beatty under contract to Network RailCharacteristicsDesignCantilever bridgeTotal length8 094 feet 2 467 m 1 Width120 ft 37 m at piers 1 32 ft 9 8 m at centre 1 Height361 ft 110 m above high water 1 Longest spanTwo of 1 700 feet 520 m 1 Clearance below150 ft 46 m to high water 1 HistoryDesignerSir John Fowler andSir Benjamin BakerConstruction start1882Construction endDecember 1889Opened4 March 1890StatisticsDaily traffic190 200 trains per dayUNESCO World Heritage SiteOfficial nameThe Forth BridgeTypeCulturalCriteriai ivDesignated2015Reference no 1485Listed Building Category AOfficial nameForth BridgeDesignated18 June 1973Reference no LB40370LocationConstruction of the bridge began in 1882 and it was opened on 4 March 1890 by the Duke of Rothesay the future Edward VII The bridge carries the Edinburgh Aberdeen line across the Forth between the villages of South Queensferry and North Queensferry and has a total length of 8 094 feet 2 467 m When it opened it had the longest single cantilever bridge span in the world until 1919 when the Quebec Bridge in Canada was completed It continues to be the world s second longest single cantilever span with a span of 1 709 feet 521 m The bridge and its associated railway infrastructure are owned by Network Rail 5 Contents 1 Background 1 1 Earlier proposals 2 Design 2 1 Dimensions 2 2 Engineering principles 2 3 Materials 2 4 Approaches 3 Construction 3 1 Preparations 3 2 Movement of materials 3 3 Circular piers 3 3 1 Inchgarvie 3 3 2 North Queensferry 3 3 3 South Queensferry 3 4 Approach viaducts 3 5 Building the cantilevers 3 6 Opening 3 7 Accidents and deaths 4 Later history 4 1 Race to the North 4 2 World wars 4 3 Ownership 5 Operation 5 1 Traffic 5 2 Maintenance 5 3 Restoration 6 In culture 6 1 In the media 6 2 In general culture 6 3 As heritage 6 4 Visitor attraction 7 See also 8 Notes 9 References 9 1 Citations 9 2 Bibliography 10 Further reading 11 External linksBackground EditEarlier proposals Edit Main article History of the Forth Crossing Before the construction of the bridge ferries were used to cross the Firth 6 In 1806 a pair of tunnels one for each direction was proposed and in 1818 James Anderson produced a design for a three span suspension bridge close to the site of the present one 7 Calling for approximately 2 500 tonnes 2 500 long tons 2 800 short tons of iron Wilhelm Westhofen said of it and this quantity of iron distributed over the length would have given it a very light and slender appearance so light indeed that on a dull day it would hardly have been visible and after a heavy gale probably no longer to be seen on a clear day either 8 nbsp Close up on the base of one of the three double cantilevers of the bridgeFor the railway age Thomas Bouch designed for the Edinburgh and Northern Railway a roll on roll off ferry between Granton and Burntisland that opened in 1850 which proved so successful that another was ordered for the Tay 9 In late 1863 a joint project between the North British Railway and Edinburgh and Glasgow Railway which would merge in 1865 appointed Stephenson and Toner to design a bridge for the Forth but the commission was given to Bouch around six months later 10 It had proven difficult to engineer a suspension bridge that was able to carry railway traffic and Thomas Bouch engineer to the North British Railway NBR and Edinburgh and Glasgow Railway was in 1863 1864 working on a single track girder bridge crossing the Forth near Charlestown where the river is around 2 miles 3 2 km wide but mostly relatively shallow 10 11 The promoters however were concerned about the ability to set foundations in the silty river bottom as borings had gone as deep as 231 feet 70 m into the mud without finding any rock but Bouch conducted experiments to demonstrate that it was possible for the silt to support considerable weight 12 Experiments in late 1864 with weighted caissons achieved a pressure of 5 t sq ft 4 9 long ton sq ft 5 5 short ton sq ft on the silt encouraging Bouch to continue with the design 12 In August 1865 Richard Hodgson chairman of the NBR proposed that the company invest 18 000 to try a different kind of foundation as the weighted caissons had not been successful 13 Bouch proposed using a large pine platform underneath the piers 80 by 60 by 7 feet 24 4 m 18 3 m 2 1 m the original design called for a 114 by 80 by 9 feet 34 7 m 24 4 m 2 7 m platform of green beech weighed down with 10 000 tonnes 9 800 long tons 11 000 short tons of pig iron which would sink the wooden platform to the level of the silt 12 The platform was launched on 14 June 1866 after some difficulty in getting it to move down the greased planks it rested on and then moored in the harbour for six weeks pending completion 12 14 The bridge project was aborted just before the platform was sunk as the NBR expected to lose through traffic following the amalgamation of the Caledonian Railway and the Scottish North Eastern Railway 12 In September 1866 a committee of shareholders investigating rumours of financial difficulties found that accounts had been falsified and the chairman and the entire board had resigned by November 15 By mid 1867 the NBR was nearly bankrupt and all work on the Forth and Tay bridges was stopped 16 nbsp Bouch s proposed bridge top along with other proposals on the same principleThe North British Railway took over the ferry at Queensferry in 1867 and completed a rail link from Ratho in 1868 establishing a contiguous link with Fife 17 Interest in bridging the Forth increased again and in 1871 Bouch proposed a stiffened steel suspension bridge on roughly the same line as taken by the present rail bridge This design was examined and pronounced acceptable by W H Barlow and William Pole both eminent civil engineers and Parliament passed in August 1873 an act authorising its construction 17 18 Work started in September 1878 in the form of a brick pier at the western end of the mid Forth island of Inchgarvie 17 After the Tay Bridge collapsed in 1879 confidence in Bouch dried up and the work stopped 17 The public inquiry into the disaster chaired by Henry Cadogan Rothery found the Tay Bridge to be badly designed badly constructed and badly maintained with Bouch being mainly to blame for the defects in construction and maintenance and entirely responsible for the defects in design 19 In particular Bouch had failed to properly account for the effect that high winds would have on the bridge and in response to this finding the Board of Trade imposed a requirement that all bridges be designed to accept a lateral wind loading of 56 lb sq ft 270 kg m2 20 Bouch s 1871 design for the Forth Bridge fell significantly short of this figure as on the advice of the Astronomer Royal he had assumed a wind loading of only 10 lb sq ft 49 kg m2 21 This had been accepted by Barlow and Pole in their 1873 assessment of the design though they qualified in their report that while we raise no object to Mr Bouch s system we do not commit ourselves to an opinion that it is the best possible 21 note 1 Bouch s design was formally abandoned on 13 January 1881 and Sir John Fowler W H Barlow and T E Harrison consulting engineers to the project were invited to propose new designs 23 24 Bouch s Inchgarvie pier was left in place protruding approximately 7 ft 2 m from the water at high tide It lies directly under the present bridge and was equipped with a small navigational light c 1887 25 26 Design Edit nbsp The original above and final below designs of the Forth BridgeDimensions Edit The bridge spans the Forth between the villages of South Queensferry and North Queensferry and has a total length of 8 094 feet 2 467 m 1 with the double track elevated 150 feet 45 72 m above the water level at high tide It consists of two main spans of 1 700 feet 518 16 m two side spans of 680 ft 207 3 m and 15 approach spans of 168 ft 51 2 m 1 27 Each main span consists of two 680 ft 207 3 m cantilever arms supporting a central 350 feet 106 7 m span truss The weight of the bridge superstructure was 50 513 long tons 51 324 t including the 6 5 million rivets used 27 The bridge also used 640 000 cubic feet 18 122 m3 of granite 28 The three great four tower cantilever structures are 361 feet 110 03 m tall 1 each tower resting on a separate granite pier These were constructed using 70 ft 21 m diameter caissons those for the north cantilever and two on the small uninhabited island of Inchgarvie acted as cofferdams while the remaining two on Inchgarvie and those for the south cantilever where the river bed was 91 ft 28 m below high water level used compressed air to keep water out of the working chamber at the base 29 nbsp Comparison of the side elevations of the Forth Bridge and some notable bridges at the same scale click for interactive version Engineering principles Edit nbsp Illustration of the cantilever principleThe bridge is built on the principle of the cantilever bridge where a cantilever beam supports a light central girder a principle that has been used for thousands of years in the construction of bridges 30 In order to illustrate the use of tension and compression in the bridge a demonstration in 1887 had the Japanese engineer Kaichi Watanabe supported between Fowler and Baker sitting in chairs 31 Fowler and Baker represent the cantilevers with their arms in tension and the sticks under compression and the bricks the cantilever end piers which are weighted with cast iron 32 Materials Edit The bridge was the first major structure in Britain to be constructed of steel 33 its French contemporary the Eiffel Tower was built of wrought iron 34 Large amounts of steel became available after the invention of the Bessemer process patented in 1856 35 In 1859 the Board of Trade imposed a limit of 77 22 N mm2 5 LTf in2 for the maximum design stress in railway bridges this was revised as technology progressed 36 The original design required 42 000 tonnes 41 000 long tons 46 000 short tons for the cantilevers only of which 12 000 tonnes 12 000 long tons 13 000 short tons was to come from Siemens steel works in Landore Wales and the remainder from the Steel Company of Scotland s works near Glasgow 37 When modifications to the design necessitated a further 16 000 tonnes 16 000 long tons 18 000 short tons about half of this was supplied by the Steel Company of Scotland Ltd and half by Dalzell s Iron and Steel Works in Motherwell 38 About 4 200 tonnes 4 100 long tons 4 600 short tons of rivets came from the Clyde Rivet Company of Glasgow 38 Around three or four thousand tons of steel was scrapped some of which was used for temporary purposes resulting in the discrepancy between the quantity delivered and the quantity erected 38 Approaches Edit nbsp The southern approach to the Forth Bridge designed by James CarswellAfter Dalmeny railway station the track curves very slightly to the east before coming to the southern approach viaduct 39 After the railway crosses the bridge it passes through North Queensferry railway station before curving to the west and then back to the east over the Jamestown Viaduct 39 The approaches were built under separate contract and were to the design of the engineer James Carswell 40 The supports of the approach viaducts are tapered to prevent the impression of the columns widening as they approach the top and an evaluation of the aesthetics of the Bridge in 2007 by A D Magee of the University of Bath identified that order was present throughout and this included in the approach viaducts Magee points out that the masonry was carefully planned and has neat block work even in areas not immediately visible from the ground 41 6 Construction Edit nbsp A view from South Queensferry of the bridge s cantilever towers being built in 1887 The Bill for the construction of the bridge was passed on 19 May 1882 after an eight day enquiry the only objections being from rival railway companies 42 On 21 December the contract was let to Sir Thomas Tancred T H Falkiner and Joseph Philips civil engineers and contractor and Sir William Arrol amp Co 43 Arrol was a self made man who had been apprenticed to a blacksmith at the age of thirteen before going on to have a highly successful business 44 Tancred was a professional engineer who had worked with Arrol before but he would leave the partnership during the course of construction 45 The steel was produced by Frederick and William Siemens England and Pierre and Emile Martin France Following advances in furnace design by the Siemens brothers and improvements by the Martin brothers the process of manufacture enabled high quality steel to be produced very quickly 46 47 48 Preparations Edit nbsp The cantilever towers are almost finished in 1888 The new works took possession of offices and stores erected by Arrol in connection with Bouch s bridge these were expanded considerably over time 49 Reginald Middleton took an accurate survey to establish the exact position of the bridge and allow the permanent construction work to commence 50 51 The old coastguard station at the Fife end had to be removed to make way for the north east pier 25 The rocky shore was levelled to a height of 7 feet 2 1 m above high water to make way for plant and materials and huts and other facilities for workmen were set up further inland 25 The preparations at South Queensferry were much more substantial and required the steep hillside to be terraced 25 Wooden huts and shops for the workmen were put up as well as more substantial brick houses for the foremen and tenements for leading hands and gangers 25 Drill roads and workshops were built as well as a drawing loft 200 by 60 feet 61 by 18 m to allow full size drawings and templates to be laid out 25 A cable was also laid across the Forth to allow telephone communication between the centres at South Queensferry Inchgarvie and North Queensferry and girders from the collapsed Tay Bridge were laid across the railway to the west in order to allow access to the ground there 25 Near the shore a sawmill and cement store were erected and a substantial jetty around 2 100 feet 640 m long was started early in 1883 and extended as necessary and sidings were built to bring railway vehicles among the shops and cranes set up to allow the loading and movement of material delivered by rail 25 In April 1883 construction of a landing stage at Inchgarvie commenced 25 Extant buildings including fortifications built in the 15th century were roofed over to increase the available space and the rock at the west of the island was cut down to a level seven feet 2 1 m above high water and a seawall was built to protect against large waves 25 In 1884 a compulsory purchase order was obtained for the island as it was found that previously available area enclosed by the four piers of the bridge was insufficient for the storage of materials 25 Iron staging reinforced wood in heavily used areas was put up over the island eventually covering around 10 000 square yards 8 400 m2 and using over 1 000 tonnes 980 long tons 1 100 short tons of iron 52 Movement of materials Edit The bridge uses 55 000 tonnes 54 000 long tons 61 000 short tons of steel and 140 000 cubic yards 110 000 m3 of masonry 52 Many materials including granite from Aberdeen Arbroath rubble sand timber and sometimes coke and coal could be taken straight to the centre where they were required 52 Steel was delivered by train and prepared at the yard at South Queensferry painted with boiled linseed oil and was then taken to where it was needed by barge 52 The cement used was Portland cement manufactured on the Medway 53 It required to be stored before it was able to be used and up to 1 200 tonnes 1 200 long tons 1 300 short tons of cement could be kept in a barge formerly called the Hougoumont that was moored off South Queensferry 53 For a time a paddle steamer was hired for the movement of workers but after a time it was replaced with one capable of carrying 450 men and the barges were also used for people carrying 52 Special trains were run from Edinburgh and Dunfermline and a steamer ran to Leith in the summer 52 Circular piers Edit nbsp A completed caisson on Inchgarvie with the granite pierThe three towers of the cantilever are each seated on four circular piers Since the foundations were required to be constructed at or below sea level they were excavated with the assistance of caissons and cofferdams 53 Caissons were used at locations that were either always under water even at low tide or where the foundations were to be built on mud and clay Cofferdams were used where rock was nearer to the surface and it was possible to work in low tide 41 Six caissons were excavated by the pneumatic process by the French contractor L Coisea 54 55 This process used a positive air pressure inside a sealed caisson to allow dry working conditions at depths of up to 89 feet 27 m 55 56 These caissons were constructed and assembled in Glasgow by the Arrol Brothers namesakes of but unconnected to W Arrol before being dismantled and transported to South Queensferry 54 57 The caissons were then built up to a large extent before being floated to their final resting places 58 The first caisson for the south west pier at South Queensferry was launched on 26 May 1884 and the last caisson was launched on 29 May 1885 for the south west pier at Inchgarvie 58 When the caissons had been launched and moored they were extended upwards with a temporary portion in order to keep water out and allow the granite pier to be built when in place 58 Above the foundations each of which is different to suit the different sites is a tapered circular granite pier with a diameter of 55 feet 17 m at the bottom and a height of 36 feet 11 m 59 Inchgarvie Edit The rock on which the two northern piers at Inchgarvie are located is submerged at high water and of the other two piers the site of eastern one is about half submerged and the western one three quarters submerged 60 This meant work initially had to be done at low tide 60 The southern piers on Inchgarvie are sited on solid rock with a slope of around 1 in 5 so the rock was prepared with concrete and sandbags to make a landing spot for the caissons 61 62 Excavation was carried out by drilling and blasting but no blasting was done within 1 5 ft 0 46 m of the caissons and the remaining rock was quarried to within 6 in 150 mm 60 North Queensferry Edit Once the positions of the piers had been established the first task at the Fife end was to level the site of the northernmost piers a bedrock of whinstone rising to a level of 10 to 20 feet 3 0 to 6 1 m above high water to a height of 7 feet 2 1 m above high water 53 The south piers at North Queensferry are sited on rock sloping into the sea and the site was prepared by diamond drilling holes for explosive charges and blasting the rock 60 South Queensferry Edit nbsp The tilted caisson nbsp The mode of sinking the South Queensferry caissonsThe four South Queensferry caissons were all sunk by the pneumatic method and are identical in design except for differences in height 54 A T shaped jetty was built at the site of the South Queensferry piers to allow one caisson to be attached to each corner and when launched the caissons were attached to the jetty and permitted to rise and fall with the tide 58 63 Excavation beneath the caissons was generally only carried out at high tide when the caisson was supported by buoyancy and then when the tide fell the air pressure was reduced in order to allow the caisson to sink down and digging would begin anew 56 The north west caisson was towed into place in December 1884 but an exceptionally low tide on New Year s Day 1885 caused the caisson to sink into the mud of the river bed and adopt a slight tilt 61 When the tide rose it flooded over the lower edge filling the caisson with water and when the tide fell but the water did not drain from the caisson its top heaviness caused to tilt further 61 Plates were bolted on by divers to raise the edge of the caisson above water level and the caisson was reinforced with wooden struts as water was pumped out but pumping took place too quickly and the water pressure tore a hole between 25 and 30 feet 7 6 and 9 1 m long 61 It was decided to construct a barrel of large timbers inside the caisson to reinforce it and it was ten months before the caisson could be pumped out and dug free 61 The caisson was refloated on 19 October 1885 and then moved into position and sunk with suitable modifications 61 Approach viaducts Edit The approach viaducts to the north and south had to be carried at 130 feet 6 inches 39 78 m above the level of high water and it was decided to build them at a lower level and then raise them in tandem with the construction of the masonry piers 64 The two viaducts have fifteen spans between them each one 168 feet 51 m long and weighing slightly over 200 tonnes 200 long tons 220 short tons 64 Two spans are attached together to make a continuous girder with an expansion joint between each pair of spans 64 Due to the slope of the hill under the viaducts the girders were assembled at different heights and only joined when they had reached the same level 65 Lifting was done using large hydraulic rams and took place in increments of around 3 feet 6 inches 1 07 m every four days 65 Building the cantilevers Edit The tubular members were constructed in the No 2 workshop further up the hill at South Queensferry 66 To bend plates into the required shape they were first heated in a gas furnace and then pressed into the correct curve 66 The curved plates were then assembled on a mandrel and holes drilled for rivets before they were marked individually and moved to the correct location to be added to the structure 66 Lattice members and other parts were also assembled at South Queensferry using cranes and highly efficient hydraulic rivetters 67 Opening Edit The bridge was completed in December 1889 and load testing of the completed bridge was carried out on 21 January 1890 Two trains each consisting of three heavy locomotives and 50 wagons loaded with coal totalling 1 880 tons in weight were driven slowly from South Queensferry to the middle of the north cantilever stopping frequently to measure the deflection of the bridge This represented more than twice the design load of the bridge the deflection under load was as expected 29 A few days previously there had been a violent storm producing the highest wind pressure recorded to date at Inchgarvie and the deflection of the cantilevers had been less than 25 mm 1 in The first complete crossing took place on 24 February when a train consisting of two carriages carrying the chairmen of the railway companies involved made several crossings The bridge was opened on 4 March 1890 by the Duke of Rothesay later King Edward VII who drove home the last rivet which was gold plated and suitably inscribed 28 The key for the official opening was made by Edinburgh silversmith John Finlayson Bain commemorated in a plaque on the bridge When it opened it had the longest single cantilever bridge span in the world 68 until 1919 when the Quebec Bridge in Canada was completed 69 It continues to be the world s second longest single cantilever span with a span of 1 709 feet 521 m 70 Main article Forth Bridge approach railways To make the fullest use of the bridge several new railway connections were built bringing main line routes to the bridge The construction of some of these lines was only completed on 2 June 1890 delaying the implementation of a full express train service over the bridge until that date Even then there was considerable congestion at Edinburgh Waverley station with remarshalling of the portions of the new more intensive train service 71 Accidents and deaths Edit At its peak approximately 4 600 workers were employed in the bridge s construction Wilhelm Westhofen recorded in 1890 that 57 people died In 2005 the Forth Bridge Memorial Committee was set up to erect a monument to those lost and a team of local historians set out to name all those who died 72 As of 2009 73 deaths have been connected with the construction of the bridge and its immediate aftermath 73 It is thought that the figure of 57 deaths excluded those who died working on the approaches to the bridge as those parts were completed by a subcontractor as well as those who died after the Sick and Accident Club stopped 73 Of the 73 recorded deaths 38 were as a result of falling 9 of being crushed 9 drowned 8 struck by a falling object 3 died in a fire in a bothy 1 of caisson disease and the cause of five deaths is unknown 74 The Sick and Accident Club was founded in 1883 and membership was compulsory for all contractors employees 75 It would provide medical treatment to men and sometimes their families and pay them if they were unable to work 75 The club also paid for funerals within certain limits and would provide grants to the widows of men killed or the wives of those permanently disabled 75 Eight men were saved from drowning by rowing boats positioned in the river under the working areas 52 In 2019 it was reported historians of the Queensferry Historian Group had discovered at least 21 more men died building the Forth Bridge than was previously thought in an alleged cover up of the true human cost of the structure taking the new death toll to 78 76 Tragically this arguably makes the Forth Bridge a more deadly structure than the failed Tay Bridge when counting both the 59 known deaths attributed to the Tay Bridge Disaster that led to the earlier proposal for the Forth Bridge construction being halted and subsequently redesigned combined with the 14 deaths during its construction 77 Later history EditRace to the North Edit Before the opening of the Forth Bridge the railway journey from London to Aberdeen had taken about 13 hours running from Euston and using the London and North Western Railway and Caledonian Railway on a west coast route With competition opened up along the east coast route from the Great Northern North Eastern and North British railways and starting from King s Cross unofficial racing took place between the two consortia reducing the journey time to about 81 2 hours on the overnight runs This reached a climax in 1895 with sensational daily press reports about the Race to the North When race fever subsided the journey times became around 101 2 hours 78 World wars Edit nbsp A German photograph allegedly taken during the raidIn the First World War British sailors would time their departures or returns to the base at Rosyth by asking when they would pass under the bridge 79 The first German air attack on Britain in the Second World War took place over the Forth Bridge six weeks into the war on 16 October 1939 Although known as the Forth Bridge Raid the bridge was not the target and not damaged In all 12 German Junkers Ju 88 bombers led by two reconnaissance Heinkel He 111s from Westerland on the island of Sylt 460 miles 400 nmi 740 km away reached the Scottish coast in four waves of three 80 The target of the attack was shipping from the Rosyth naval base in the Forth about 2 miles 3 2 km to the west of the bridge The Germans were hoping to find HMS Hood the largest capital ship in the Royal Navy Luftwaffe rules of engagement restricted action to targets on water and not in the dockyard Although HMS Repulse was in Rosyth the attack was concentrated on the cruisers Edinburgh and Southampton the carrier Furious and the destroyer Jervis 81 The destroyer Mohawk and the cruisers Southampton and Edinburgh were damaged Sixteen Royal Navy crew died and 44 were wounded although this information was not made public at the time 82 Spitfires from 603 City of Edinburgh Squadron RAF intercepted the raiders and during the attack shot down the first German aircraft downed over Britain in the war 82 One bomber came down in the water off Port Seton on the East Lothian coast and another off Crail on the coast of Fife After the War it was learned that a third bomber had come down in the Netherlands as a result of damage inflicted during the raid Later in the month a reconnaissance Heinkel 111 crashed near Humbie in East Lothian and photographs of this crashed plane were and still are used erroneously to illustrate the raid of 16 October thus sowing confusion as to whether a third aircraft had been brought down 83 Members of the bomber crew at Port Seton were rescued and made prisoners of war Two bodies were recovered from the Crail wreckage and after a full military funeral with firing party were interred in Portobello cemetery Edinburgh The body of the gunner was never found 84 A wartime propaganda film Squadron 992 made by the GPO Film Unit after the raid recreated it and conveyed the false impression that the main target was the bridge 85 Ownership Edit nbsp A 1913 Railway Clearing House Junction Diagram showing the Forth Bridge Railway red and neighbouring lines of the North British Railway blue Before the opening of the bridge the North British Railway NBR had lines on both sides of the Firth of Forth between which trains could not pass except by running at least as far west as Alloa and using the lines of a rival company The only alternative route between Edinburgh and Fife involved the ferry at Queensferry which was purchased by the NBR in 1867 Accordingly the NBR sponsored the Forth Bridge project which would give them a direct link independent of the Caledonian Railway 86 A conference at York in 1881 set up the Forth Bridge Railway Committee to which the NBR contributed 35 of the cost The remaining money came from three English railways which ran trains from London over NBR tracks The Midland Railway which connected to the NBR at Carlisle and which owned the route to London St Pancras contributed 30 and 17 5 came equally from each of the North Eastern Railway and the Great Northern Railway which between them owned the route between Berwick upon Tweed and London King s Cross via Doncaster This body undertook to construct and maintain the bridge 87 In 1882 the NBR were given powers to purchase the bridge which it never exercised 86 At the time of the 1923 Grouping the bridge was still jointly owned by the same four railways 88 89 and so it became jointly owned by these companies successors the London Midland and Scottish Railway 30 and the London and North Eastern Railway 70 90 The Forth Bridge Railway Company was named in the Transport Act 1947 as one of the bodies to be nationalised and so became part of British Railways on 1 January 1948 91 Under the Act Forth Bridge shareholders would receive 109 of British Transport stock for each 100 of Forth Bridge Debenture stock and 104 17s 6d of British Transport stock for each 100 of Forth Bridge Ordinary stock 92 93 As of April 2017 the bridge and its associated railway infrastructure are owned by Network Rail Infrastructure Limited 94 Operation Edit nbsp The approach to the bridge from Dalmeny Station nbsp Inside the Forth Bridge as seen from a ScotRail Class 158Traffic Edit The bridge has a speed limit of 50 miles per hour 80 km h for high speed trains and diesel multiple units 40 miles per hour 64 km h for ordinary passenger trains and 30 miles per hour 48 km h for freight trains 95 96 The route availability code is RA8 but freight trains above a certain size must not pass each other on the bridge 97 Up to 190 200 trains per day crossed the bridge in 2006 98 Maintenance Edit Painting the Forth Bridge is a colloquial expression for a never ending task coined on the erroneous belief that at one time in the history of the bridge repainting was required and commenced immediately upon completion of the previous repaint 99 Such a practice never existed as weathered areas were given more attention but there was a permanent maintenance crew 100 Between 2001 and 2011 5 101 the bridge was covered in a new coating designed to last for 25 years bringing an end to having painters as a regular part of the maintenance crew Colin Hardie of Balfour Beatty Construction was reported as saying 102 103 For the first time in the bridge s history there will be no painters required on the bridge Job done Colin Hardie BBC News article 5 September 2011 Restoration Edit Floodlighting was installed in 1990 104 and the track was renewed between 1992 and 1995 100 The bridge was costing British Rail 1 million a year to maintain and they announced that the schedule of painting would be interrupted to save money and the following year upon privatisation Railtrack took over 100 A 40 million package of works commenced in 1998 and in 2002 the responsibility of the bridge was passed to Network Rail 100 Work started in 2002 to repaint the bridge fully for the first time in its history in a 130 million contract awarded to Balfour Beatty 105 106 Up to 4 000 tonnes 3 900 long tons 4 400 short tons of scaffolding was on the bridge at any time and computer modelling was used to analyse the additional wind load on the structure 107 The bridge was encapsulated in a climate controlled membrane to give the proper conditions for the application of the paint 108 All previous layers of paint were removed using copper slag fired at up to 200 miles per hour 320 km h exposing the steel and allowing repairs to be made 108 109 The paint developed specifically for the bridge by Leigh Paints consisted of a system of three coats derived from that used in the North Sea oil industry 108 a total of 240 000 litres 53 000 imp gal 63 000 US gal was applied to 255 000 square metres 2 740 000 sq ft of the structure and it is not expected to need repainting for at least 20 years 106 108 The top coat can be reapplied indefinitely minimising future maintenance work 110 nbsp Panoramic view of the Forth Bridge undergoing maintenance work in 2007 In a report produced by JE Jacobs Grant Thornton and Faber Maunsell in 2007 which reviewed the alternative options for a second road crossing it was stated that Network Rail has estimated the life of the bridge to be in excess of 100 years However this is dependant sic upon NR s inspection and refurbishment works programme for the bridge being carried out year on year 111 In culture Edit nbsp Original rivet from the Forth BridgeIn the media Edit The Forth Bridge has been featured in television programmes and films including Carry On Regardless Alfred Hitchcock s 1935 film The 39 Steps and its 1959 remake 112 A G Barr used the bridge in posters advertising its soft drink Irn Bru with the slogan Made in Scotland from girders 113 In 2005 the BBC lit the Bridge in red for Comic Relief 114 Also in 2005 Channel 4 documentary Jump Britain showed Sebastien Foucan a French freerunner crawling along one of the highest points of the bridge without a harness 115 The first episode of the UK television series Britain s Greatest Bridges featured the Forth Bridge and was aired on Spike UK on 12 January 2017 116 In general culture Edit The location of the Forth Bridge has seen it featured in other cultural forms In the build up to the Millennium celebrations a countdown clock sponsored by the Royal Bank of Scotland was attached to the top of the Bridge in 1998 117 118 Iain Banks wrote the novel The Bridge which is mainly set on a fictionalised version of the bridge which links The City Edinburgh and The Kingdom Fife 119 In Alan Turing s most famous paper about artificial intelligence one of the challenges put to the subject of an imagined Turing test is Please write me a sonnet on the subject of the Forth Bridge The test subject in Turing s paper answers Count me out on this one I never could write poetry 120 The bridge is included in the video game Grand Theft Auto San Andreas by Edinburgh based developer Rockstar North Renamed the Kincaid Bridge it serves as the main railway bridge of the fictional city of San Fierro and appears alongside a virtual Forth Road Bridge 121 nbsp D Arcy Thompson used a figure of a bison skeleton when comparing it to the structural form of the Forth Bridge 122 In his 1917 book On Growth and Form the mathematical biologist D Arcy Thompson compares the structural form of the Forth Bridge with the cantilevered skeleton of an ox the piers corresponding to legs the cantilevers to the vertebral column 122 In a typical cantilever bridge such as the Forth Bridge a certain simplification is introduced For each pier carries in this case its own double armed cantilever linked by a short connecting girder to the next but so jointed to it that no weight is transmitted from one cantilever to another The bridge in short is cut into separate sections practically independent of one another In the horse or the ox it is obvious that the two piers of the bridge that is to say the fore legs and the hind legs do not bear as they do in the Forth Bridge separate and independent loads but the whole system forms a continuous structure 122 As heritage Edit UNESCO inscribed the bridge as a World Heritage Site on 5 July 2015 recognising it as an extraordinary and impressive milestone in bridge design and construction during the period when railways came to dominate long distance land travel It is the sixth World Heritage Site to be inscribed in Scotland 123 68 In 2016 a VisitScotland survey voted the Forth Bridge Scotland s greatest man made wonder beating off competition from Stirling Castle the Caledonian Canal the Scott Monument Bell Rock Lighthouse and Melrose Abbey 124 The Forth Bridge has appeared in representation on a 2004 one pound coin issued by the Royal Mint 125 The Bridge has also featured on banknotes including the 2007 series issued by the Bank of Scotland which depicts different bridges in Scotland as examples of Scottish engineering and the 20 note features the Forth Bridge 126 In 2014 Clydesdale Bank announced the introduction of Britain s second polymer banknote a 5 note featuring Sir William Arrol and the Forth Bridge the first polymer banknote was issued by Northern Bank in 2000 It was introduced in 2015 to commemorate the 125th anniversary of the opening of the bridge and its nomination to become a UNESCO World Heritage Site 127 Forth Bridge was used as a codeword to announce to the government the death of Prince Philip Duke of Edinburgh in 2021 128 129 Visitor attraction Edit Network Rail plans to add a visitor centre to the bridge which would include a viewing platform on top of the North Queensferry side or a bridge climbing experience to the South Queensferry side 130 In December 2014 it was announced Arup had been awarded the design contract for the project 131 In September 2019 Network Rail submitted plans to build a visitor centre at the South Queensferry side that would serve as a base for the bridge climbing experience dubbed The Forth Bridge Experience 132 The plans were approved in early 2020 but were put on hold due to the COVID 19 pandemic 133 Revised plans were submitted in February 2022 134 See also Edit nbsp Scotland portalBanknotes of Scotland featured on design Notes Edit J S Shipway states in Paxton 1990 that the 10 lb sq ft figure seems to have been the norm for design in the UK at that time and notes that Bouch s design seemingly gained Parliamentary and Board of Trade approval without any detailed invesitgation other than the private report by Barlow and Pole 22 References EditCitations Edit a b c d e f g h i Forth Bridge NetworkRail Network Rail Archived from the original on 4 July 2015 Retrieved 3 July 2015 The Forth Bridge forth bridges co uk Forth Bridges Forum 2015 Retrieved 26 March 2017 Opened in 1890 The Forth Bridge is recognised the world over as the most famous of cantilever designs The Forth Bridge UNESCO World Heritage Centre Retrieved 26 May 2020 The bridge builders The Forth Bridges www theforthbridges org Retrieved 26 May 2020 a b The history of the Forth Bridge Fife Network Rail Retrieved 26 May 2020 McKean 2006 p 58 Harding Gerard amp Ryall 2006 p 2 Westhofen 1890 p 1 McKean 2006 pp 58 59 a b McKean 2006 p 62 Paxton 1990 pp 24 27 a b c d e Paxton 1990 p 29 McKean 2006 pp 73 74 McKean 2006 p 77 McKean 2006 p 78 McKean 2006 p 81 a b c d Paxton 1990 p 32 The Forth Bridge Railway Act 1873 36 amp 37 Vict c ccxxxvii Summerhayes 2010 p 7 Paxton 1990 p 41 a b Paxton 1990 pp 44 45 Paxton 1990 p 44 Paxton 1990 pp 47 49 History of the Forth Bridge forth bridges co uk Forth Bridges Forum 2015 Retrieved 26 March 2017 the momentum for a crossing had grown and a new design by John Fowler and Benjamin Baker was submitted to the Forth Bridge Company in May 1881 with construction authorised by Parliament in July 1882 a b c d e f g h i j k Westhofen 1890 p 13 Paxton 1990 pp 32 40 a b Forth Rail Bridge Facts amp Figures Archived 23 December 2012 at the Wayback Machine Forth Bridges Visitors Centre Trust Retrieved 21 April 2006 a b Overview of Forth Bridge The Gazetteer for Scotland Retrieved 21 April 2006 a b Description and History of the Bridge The Times No 32950 London 4 March 1890 p 13 Westhofen 1890 p 4 Kaichi Watanabe University of Glasgow Retrieved 26 December 2014 Westhofen 1890 p 6 Blanc McEvoy amp Plank 2003 p 16 Hanser David A 2006 Architecture of France Greenwood p 66 ISBN 978 0 313 31902 0 Wagner Donald 2008 Science and Civilisation in China Vol 5 Part 11 Ferrous Metallurgy Cambridge University Press p 361 ISBN 978 0 521 87566 0 D Ayala Dina Fodde Enrico 2 June 2008 Structural Analysis of Historic Construction Preserving Safety and Significance Two Volume Set Proceedings of the VI International Conference on Structural Analysis of Historic Construction SAHC08 2 4 July 2008 Bath United Kingdom CRC Press p 209 ISBN 978 1 4398 2822 9 Retrieved 30 April 2017 Westhofen 1890 pp 36 37 a b c Westhofen 1890 p 37 a b Google 18 September 2014 Forth Bridge Map Google Maps Google Retrieved 18 September 2014 James Carswell Dictionary of Scottish Architects Retrieved 3 April 2017 a b Magee A D 27 April 2007 A Critical Analysis of the Forth Bridge PDF First Annual Bridge Engineering 2 Conference Vol 8 University of Bath Archived from the original PDF on 9 September 2015 Retrieved 30 April 2017 Paxton 1990 p 67 Paxton 1990 pp 67 68 Paxton 1990 pp 68 70 Paxton 1990 p 70 Forth Rail Bridge Firth of Forth Railway Technology Retrieved 3 April 2017 iron and steel industry Britannica Retrieved 3 April 2017 Open Hearth Furnace www industrialmetalcastings com Industrialmetalcastings com 2010 Retrieved 30 April 2017 Westhofen 1890 p 12 Westhofen 1890 pp 12 13 Triangulation amp measurements at the Forth bridge worldcat org OCLC 123250114 a b c d e f g Westhofen 1890 p 14 a b c d Westhofen 1890 p 17 a b c Westhofen 1890 p 22 a b Westhofen 1890 p 71 a b Westhofen 1890 p 27 Arrol Brothers glasgowwestaddress co uk Retrieved 26 December 2014 a b c d Westhofen 1890 p 23 Westhofen 1890 p 31 a b c d Westhofen 1890 p 18 a b c d e f Westhofen 1890 p 26 Westhofen 1890 p 20 Westhofen 1890 p 21 a b c Westhofen 1890 p 32 a b Westhofen 1890 p 33 a b c Westhofen 1890 p 38 Westhofen 1890 p 39 a b The Forth Bridge UNESCO World Heritage Centre 2015 Retrieved 26 March 2017 This railway bridge crossing the Forth estuary in Scotland had the world s longest spans 541 m when it opened in 1890 It remains one of the greatest cantilever trussed bridges and continues to carry passengers and freight Longest Cantilever Bridge Span The Quebec Bridge Quebec travelandleisure com Travel Leisure 2017 Retrieved 26 March 2017 Finally in December 1919 the 94 foot wide 1 800 foot long central span was jacked 150 feet into place and it has remained the record holder ever since Key facts about the Forth Bridge forth bridges co uk Forth Bridges Forum 2015 Retrieved 26 March 2017 The two main spans of 521m were for 28 years the longest and second longest bridge spans in the world Aberdeen Weekly Journal 4 June 1890 Wills 2009 p 82 a b Wills 2009 p 86 Wills 2009 p 90 a b c Paxton 1990 p 136 Hidden death toll of Forth Bridge revealed The Scotsman Retrieved 7 April 2023 How the work was done ice org uk Retrieved 7 April 2023 Nock 1958 pp 64 66 King Hall Stephen A North Sea diary 1914 1918 Newnes Retrieved 3 April 2017 W Simpson Spitfires Over Scotland G C Books Ltd 2010 ISBN 978 1 872350 44 8 p 84 W Simpson Spitfires Over Scotland p 92 a b Air attack in the Firth of Forth educationscotland org uk Learning and Teaching Scotland Archived from the original on 6 April 2015 Retrieved 25 July 2017 W Simpson Spitfires Over Scotland p 108 W Simpson Spitfires Over Scotland pp 100 109 BFI Screenonline Squadron 992 1940 Screen Online Retrieved 3 April 2017 a b Awdry Christopher 1990 Encyclopaedia of British Railway Companies London Guild Publishing p 132 CN 8983 Thomas John Turnock David 1989 Thomas David St John Patmore J Allan eds A Regional History of the Railways of Great Britain Volume XV North of Scotland Newton Abbot David St John Thomas p 71 ISBN 0 946537 03 8 Conolly W Philip January 1976 British Railways Pre Grouping Atlas and Gazetteer 5th ed Shepperton Ian Allan p 49 ISBN 0 7110 0320 3 EX 0176 Whitehouse Patrick Thomas David St John 1989 LNER 150 The London and North Eastern Railway A Century and a Half of Progress Newton Abbot David amp Charles p 21 ISBN 0 7153 9332 4 01LN01 Hughes Geoffrey 1987 1986 LNER London Guild Publishing Book Club Associates pp 33 34 CN 1455 His Majesty s Government 6 August 1947 Third Schedule PDF Transport Act 1947 10 amp 11 Geo 6 ch 49 London His Majesty s Stationery Office p 145 Retrieved 1 July 2011 Transport Act 1947 fourth schedule p 148 Bonavia Michael R 1981 British Rail The First 25 Years Newton Abbot David amp Charles p 10 ISBN 0 7153 8002 8 Scotland Network Rail www networkrail co uk Network Rail 2017 Retrieved 26 March 2017 Network Rail Scotland looks after Scotland s railway infrastructure including the world famous Forth Bridge that connects passengers in Fife north of Edinburgh with Edinburgh and the Borders Harding Gerard amp Ryall 2006 p 11 Paxton 1990 p 91 Forth Bridge and Associated Rail Network Transport Scotland Retrieved 20 July 2014 The Forth Bridge Archived 22 February 2008 at the Wayback Machine Forth Bridges Visitors Centre Trust Retrieved 21 April 2006 be like painting the Forth Bridge theFreeDictionary com Retrieved 23 November 2010 a b c d Glen Bowman amp Andrew 2012 p 15 Spanning the ages Supply Management magazine April 2019 p 50 Forth Bridge painting is coming to an end BBC News 5 September 2011 Retrieved 26 March 2017 The Forth Rail Bridge will be free of scaffolding and painters from 9 December Chu Henry 26 January 2012 Scotland can stop painting its Forth Rail Bridge Los Angeles Times Retrieved 13 August 2015 Award for floodlights The Press and Journal 7 March 1991 p 11 Glen Bowman amp Andrew 2012 p 16 a b Men of Steel The men who maintain the Forth Rail Bridge The Scotsman 22 November 2011 Glen Bowman amp Andrew 2012 p 18 a b c d Glen Bowman amp Andrew 2012 p 19 McKenna John 19 February 2008 Painting of Forth bridge to end New Civil Engineer Retrieved 16 January 2010 Glen Bowman amp Andrew 2012 p 20 Forth Replacement Crossing Report 1 Assessment of Transport Network Transport Scotland Archived from the original on 6 January 2017 The LNER in Books Film and TV Retrieved 18 January 2014 A Glow in the Dark Forth Bridge Easy For Boats to Spot at Least Archived from the original on 18 January 2014 Retrieved 18 January 2014 Dunfermline info The Historic City Archived from the original on 24 August 2013 Retrieved 18 January 2014 Jump Britain British Universities Film amp Video Council Retrieved 18 January 2014 Britain s Greatest Bridges Channel 5 Retrieved 26 March 2017 Forth Road Bridge 50th year ad banner plan slammed The Scotsman The Scotsman Retrieved 18 January 2014 Growth and milestones forth bridges co uk Forth Bridges Forum Retrieved 29 April 2017 MacGillivray Alan 30 September 2013 The Worlds of Iain Banks arts gla ac uk The Association for Scottish Literary Studies Archived from the original on 3 May 2014 Retrieved 18 January 2014 Turing Alan October 1950 Computing Machinery and Intelligence Mind LIX 236 433 460 doi 10 1093 mind LIX 236 433 ISSN 0026 4423 Grand Theft Auto tour of Scotland as councillors of Hawick disgusted by use of its name for GTA V s drug district The Independent Retrieved 18 January 2014 a b c Thompson D Arcy 1961 1917 Bonner John Tyler ed On Growth and Form Abridged ed Cambridge University Press pp 243 246 ISBN 0 521 09390 2 Forth Bridge given world heritage status BBC News 5 July 2015 Retrieved 5 July 2015 Ward Paul 14 October 2016 The Forth Railway Bridge is voted Scotland s greatest man made wonder Express co uk Express Newspapers Retrieved 26 March 2017 The United Kingdom 1 Coin The Royal Mint Archived from the original on 24 April 2012 Retrieved 21 June 2009 Banknote Design Features Bank of Scotland Bridges Series The Committee of Scottish Clearing Bankers Retrieved 29 October 2008 UK s first plastic banknote introduced to commemorate Forth Bridge s UNESCO nomination Herald Scotland 22 May 2014 Mosalski Ruth 9 April 2021 Operation Forth Bridge What happens now after Prince Philip s death WalesOnline Retrieved 9 April 2021 Traynor Sian 22 February 2021 Everything that will happen in Operation Forth Bridge when Prince Philip dies Edinburgh Live Retrieved 9 April 2021 The Forth Bridge Experience An executive summary of its feasibility PDF forthbridgeexperience com Network Rail Infrastructure Limited 23 August 2013 Retrieved 20 July 2014 Design For 15m Forth Bridge Visitor Won by Arup obas com 15 December 2012 Visitors to be able to climb Forth Bridge BBC News 4 March 2020 Retrieved 14 February 2022 Ryder Gemma 21 March 2021 Forth Bridge Experience attraction stopped in its tracks Dunfermline Press Retrieved 14 February 2022 Smith Roger 11 February 2022 Revised planning application for Forth Bridge Experience RailAdvent Retrieved 14 February 2022 Bibliography Edit Blanc Alan McEvoy Michael Plank Roger 2003 Architecture and Construction in Steel Taylor amp Francis ISBN 978 1 135 82839 4 Glen Ann Bowman Craig Andrew John 2012 Forth Bridge Restoring an Icon Lily Publications ISBN 978 1 907945 19 9 Harding J E Gerard Parke Ryall M 2006 Bridge Management Inspection maintenance assessment and repair CRC Press ISBN 978 0 203 97354 7 McKean Charles 2006 Battle for the North Granta Books ISBN 978 1 86207 852 9 Nock Oswald S 1958 The Railway Race to the North Ian Allan Paxton Roland ed 1990 100 Years of the Forth Bridge London Thomas Telford ISBN 978 0 7277 1600 2 OCLC 23022039 OL 7866621M Summerhayes Stuart 2010 Design Risk Management John Wiley amp Sons ISBN 978 1 4443 1890 6 Westhofen Wilhem 1890 Contents The Forth Bridge Offices of Engineering Wills Elspeth M 2009 The Briggers The Story of the Men Who Built the Forth Bridge Birlinn ISBN 978 1 84158 761 5 Further reading EditKelly Peter April 1983 A mountain of scrap for Serpell Rail Enthusiast EMAP National Publications pp 34 39 OCLC 49957965 MacKay Sheila 2011 The Forth Bridge A Picture History Birlinn ISBN 978 1 84158 935 0 Winchester Clarence ed 1935 The Forth Bridge Railway Wonders of the World pp 432 441 External links Edit nbsp Wikimedia Commons has media related to Forth Bridge 40 black and white photographs of the construction of the Forth Bridge taken in 1886 1887 by Philip Phillips at National Library of Scotland Forth Bridge at Forth Bridges Visitor Centre Trust Forth Rail Bridge at Structurae Scottish Poetry Library Poetry Map of Scotland Firth of Forth The Construction of the Forth Bridge 1882 1890 by Colin Donati Retrieved from https en wikipedia org w index php title Forth Bridge amp oldid 1178251229, wikipedia, wiki, book, books, library,

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