Infrastructure was a key component of wartime logistics: aiding the movement of personnel, weaponry, post and supplies. This fed in not only to conflict aims and needs but to more personal needs; the postal service boosted morale by giving troops a vital link to their loved ones. Engineers were crucial to infrastructure, by creating the supply lines on which the armed forces depended on.

Gun Wagons
The railways were important during the War for supply line reasons including the redistribution of munitions and heavy arms, as well as of troops, medical staff and general supplies. Both the Great Western (GWR) and Midland Railways (MR) used specific gun wagons for the moving of guns.

The GWR used Pollen B wagon sets 48979-48982, 48999-48900 to carry 12-inch BL guns Marks 8-10 for the moving of heavy guns, 45-58 tons. The MR used wagon set 9696 carrying 12, 13.5, 14, and 15 inch guns, these were even heavier at 67-97 tons. Technical drawings for both companies include side elevations showing basic dimensions, weights, and axle loads. Guns were moved both within Britain and on the Continent to position them for battle or strategic defence. The largest artillery was actually held by the Royal Navy for their dreadnaughts, the 'monster' guns moved by MR were most likely for this purpose.

Of course, dreadnaughts were not an option on the Front, but their guns were deployed against the concrete fortified German positions near the Somme and along the Hindenburg line. At first they put the gun on a wheel mount and attempted to secure it in place; advanced recoil mechanisms allowed for some success but deployment was still slow and cumbersome. The guns were moved by a tractor, this was slow and carried the risk of enemy capture.

Rail presented the perfect transport and firing platform for land-based naval ordnance. The gun could be moved relatively quickly along the rail system and the recoil could be dispersed by allowing the carriage to hurtle down the tracks (sometimes up to 100 feet). In some cases, a piece of curved siding was actually used to aim the gun. These guns could fire up to thirty miles and were capable of reaching far into the enemy’s rear positions. The culmination of the rail gun was the massive French Schneider 520mm howitzer. The shells this gun fired were over 24 inches in diameter and weighed 3,100 pounds. They were fused in such a way as to allow the shell to penetrate its target before detonation. Luckily for all involved, the war ended before they could be brought into service.

As well as rail becoming a platform for the direct deployment of guns, it was also used to transport guns and weapons of all sizes to where they were required. Entrenched lines meant that routes and workflow methods could be honed. As the Engineers Office charts of the South East & Chatham Railway show, they had to plan which lines were suitable for the carrying of which rolling stock and weaponry- the sheer weight of the haul being a prime consideration because of the risk collapse to the lines.



Book 1, North Eastern Railway

Book 1, North Eastern Railway

by User Not Found | 24 Jul, 2014

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    Drawings and charts for the movement of guns on British railways.


    British Pathe film, Giant Gun on the Railway 1914-1918.

    Admiralty

    Electrical Engineering Departments were first created by the Admiralty in 1903; Charles Henry Wordingham was made Superintending Electrical Engineer with two Assistants of whom William McClelland was one, the quotes are his. Electrical Engineers were appointed at each Dockyard. The war brought with it challenges for the fitting and maintenance of the fleet:

    “Early in the 1914-18 War, Admiral Sir Percy Scott, a well-known gunnery expert, walked into my room one morning, and, with his pencil drew on my blotting pad, an outline of a ship saying, “that’s the hull, that’s the tower; that’s the control room below; we want to control all turret guns from the top; if that is shot away, we then control from the room below; if that becomes flooded or damaged, we then control from a certain turret; any damaged parts must be capable of being isolated quickly with switch-over arrangements. Now McClelland, how long will it take to wire 30 first line ships at sea, the ships to remain at an hour’s notice for action?"

    McClelland's response was ignored, he was given 6 months and told to make arrangements to get the dockyard workmen to the Fleet. When the Fleet went to sea, the workmen often went with them; some were in action and were specially commended by the Commander in Chief.

    HMS Invincible, the fast Battle-Cruiser was urgently needed. She was under refit, her guns removed, and electrically she was nearly stripped. The extent of the electrical work involved was such that the Electrical Engineering Department could not complete the ship concurrently with other departments. Labour was not available in the dockyards. "The First Sea Lord said that, if it were a question of men, we should get them where we liked and how we liked, paying what was necessary, and if anyone say ‘nay’, that person should be referred to him, but without any doubt whatsoever, the ship must leave on the date given"He attached heavy penalties for any individual or Department failing to meet targets. Adverts were placed and over 200 men were found in a few days. Invincible left the dockyard on time; in the Falklands, she arrived just in time to catch and sink the German ships, the Scharnhorst and Gneisenau. "Thus the Electrical Engineering Departments got through the 1914-1918 War, by sheer hard work and determination".

    New designs of ships, new construction and maintenance seemed unending; senior staff were engaged with all sorts of new electrical problems almost daily, they were much worried by the constant pressure and over-work. As an indication of the magnitude of the tasks, the number of electrical refits of ships was 48,630; the organisation for that one item, with its enormous supplies of materials, electrical machinery, and equipment from all over the country, had to be created without any previous experience of prolonged war in a comparatively new industry. The smooth and rapid expansion was made possible by the recruitment of suitable junior officers from the dockyards, who worked very efficiently.

    Sir Oswyn Murray Letter P1
    Letter to McClelland from Sir Oswyn Murray, Permanent Secretary of the Admiralty (the head of the Admiralty Civil Service in 1917) regarding his war work.


    Bridges

    Engineers played a vital role in moving troops, supplies and equipment. At the beginning of the War, the British Army did not have specialist material for building heavy bridges, nor the technical intelligence to be able to work out what might be required. The earliest forms of equipment bridging were based on pontoons which continued to be useful carrying guns and light equipment across rivers but the introduction of mechanical transport resulted in a large increase of axle load and the need to develop bridges to take heavier loads.

    The first need for heavy bridges was over the River Aisne on 13 September 1914, when the retreating German army destroyed the Pont Saint Waast leaving the allies unable to follow. The Royal Engineers built several pontoon bridges over the next few weeks followed by a heavy wooden girder bridge, the Pont des Anglais, at Sousson. The bridge was built under enemy fire and using any available materials including floorboards from local houses; it took too long to build resulting in a demand for steel spans to be sent.

      The first British equipment bridge was called the Inglis Portable Military Bridge (Light Type) invented by Sir Charles Inglis. Although the spans were invented in 1909 whilst Inglis was involved with the Cambridge University Officer Training Corps, they were first used as a self-contained portable bridge during WWI. Inglis was commissioned into the Royal Engineers in 1914; in1916 he was put in charge of bridge design and supply at the War Office. The first Inglis bridge consisted of pyramidal bays 8ft square created by 8ft long steel tubes connected by specially designed fittings, not unlike modern scaffolding.  It was designed to carry infantry in single file over a 120ft span and was easily transported  requiring little specialist training to construct.  At the first demonstration in France, a 108ft span was thrown across a canal in 13 minutes by an untrained party of Army Service Corps. On 28 September 1918 200 sappers from the Royal Engineers built a 108 ft span bridge over the Canal du Nord at Marquion in twelve and a half construction hours over several days whilst under fire.

      Although the Inglis Bridge was the best military bridge of the time, being fast to construct and carrying heavy loads, its tubular steel construction made it expensive and slow to manufacture. The Hopkins Bridge designed by Captain Hopkins, Royal Engineers, was a cheaper alternative. This bridge used conventional steel girders bolted together but the bolts meant construction was much slower than the Inglis. This meant that when speed was an issue, an Inglis bridge was often built which was then later replaced by a Hopkins bridge allowing the Inglis bridge to be re-used. The Hopkins bridge was designed to carry tanks. It consisted of steel Warren trusses and could be made in spans of multiples of 15ft. It was successful and a lorry bridge was designed, it was still at the experimental stage in 1918.

      The main disadvantage of girder bridges such as the Inglis and Hopkins was that they were not very adaptable; resulting in them often being stronger and heavier than required.  This problem led to the design of the Martel box girder bridge in 1925 which was used in the Second World War. These latter developments were as a direct result of engineers work from 1914 onwards.




      WWI Hopkins road bridge213
      Line drawing with technical details, Hopkins.


      Hopkins road bridge
      Hopkins road bridge being placed during the war.


      120ft Hopkins Bridge at Arques
      120ft Hopkins Bridge in use during the war at Arques.
      Credits/footnotes:

      ​'Giant Gun on Railway' film, British Pathe Archive.

      Images:

      Gun wagon charts/drawings, IMechE Archive.

      McClelland letter and portrait, IET Archive.

      Hopkins Bridge images, ICE Archive.