Borodino-class battlecruiser explained

The Borodino-class battlecruisers (Russian: link=no|Линейные крейсера типа «Измаил») were a group of four battlecruisers ordered by the Imperial Russian Navy before World War I. Also referred to as the Izmail class, they were laid down in late 1912 at Saint Petersburg for service with the Baltic Fleet. Construction of the ships was delayed by a lack of capacity among domestic factories and the need to order some components from abroad. The start of World War I slowed their construction still further, as the imported components were often not delivered and domestic production was diverted into areas more immediately useful for the war effort.

Three of the four ships were launched in 1915 and the fourth in 1916. Work on the gun turrets lagged, and it became evident that Russian industry would not be able to complete the ships during the war. The Russian Revolution of 1917 halted all work on the ships, which was never resumed. Although some consideration was given to finishing the hulls that were nearest to completion, the three furthest from completion were sold for scrap by the Soviet Union during the early 1920s. The Soviet Navy proposed to convert Izmail, the ship closest to completion, to an aircraft carrier in 1925, but the plan was cancelled after political manoeuvring by the Red Army cut funding and she was eventually scrapped in 1931.

Design and development

After the end of the Russo-Japanese War of 1905, the Russian Naval General Staff decided that it needed a squadron of fast armoured cruisers[1] that could use their speed to engage the leader of an enemy's battle line, as Admiral Tōgō had done against the Russian fleet during the Battle of Tsushima. The Naval General Staff initially called for a ship with high speed (28kn), 12adj=on0adj=on guns, and limited protection (a waterline belt of 190mm). The Tsar, head of the Russian government, approved construction of four such ships on 5 May 1911, but the State Duma session ended before the proposal could be voted on. Preliminary bids for the ships were solicited from private builders, but the bids proved to be very high,[1] leading to a reconsideration of the requirements. The Naval General Staff issued a new specification on 1 July 1911 for a ship with a speed of only and with armour increased to 2540NaN0. The armament was increased to nine 14inches guns in three non-superfiring triple-gun turrets,[2] based on a false rumour that the Germans were increasing the calibre of the guns in their battleships.[3] The Imperial Russian Navy believed that widely separating the main gun turrets and their magazines reduced the chance of a catastrophic ammunition explosion, reduced the silhouette of the ship and improved stability without superfiring turrets and their tall barbettes.[4]

The Naval Ministry solicited new bids on 8 September from 23 shipbuilders, domestic and foreign, but only 7 responded, even after the deadline was extended by a month. Several designs were rejected for not meeting the revised criteria. In the meantime, the Artillery Section of the Main Administration of Shipbuilding had decided that it preferred a four-turret design, and new bids were solicited in May 1912 from the leading contenders from the first round of bidding. The eventual winner was a design by the Admiralty Shipyard in Saint Petersburg which had the extra turret added to a new hull section inserted into the original three-turret design.[5] The Duma approved construction in May 1912, before the design was finalised, and allocated 45.5 million roubles for each ship. The additional gun turret and consequent increase in the size of the ships led to the ships being overbudget by about 7 million roubles each, and some money was diverted from the budget for the to cover the discrepancy. Orders were placed on 18 September 1912 for a pair of ships each from the Admiralty Shipyard and the Baltic Works, also of Saint Petersburg. The first pair was to be ready for trials on 14 July 1916, and the second pair on 14 September 1916.[6] [7]

Full-scale armour trials in 1913 revealed serious weaknesses in the Borodinos' proposed protection scheme. The obsolete ironclad had been modified with armour protection identical to that used by the s, then under construction. The deck and turret-roof armour proved to be too thin, and the structure supporting the side armour was not strong enough to withstand the shock of impact from heavy shells. The design of the Borodinos' armour was similar in construction to that of the Ganguts and therefore needed to be modified, which slowed construction. The Borodinos' deck armour was reinforced with extra plates and the thickness of the turret roofs was increased. To offset this additional weight, a planned rear conning tower was removed entirely and the thickness of the main belt was slightly reduced. Mortise and tenon joints were introduced between the armour plates along their vertical edges to better distribute the shock of a shell impact and to lessen the stress on the supporting hull structure. The launching of the first pair of ships was postponed by six months because of these changes, plus delays imposed by the many ship orders already in hand.[8]

General characteristics

The Borodino-class ships were 223.85m (734.42feet) long overall. They had a beam of 30.5m (100.1feet) and a draught of 8.81m (28.9feet) at full load. The ships displaced 32500LT normally and 36646LT at full load.[9] High-tensile steel was used throughout the hull with mild steel used only in areas that did not contribute to structural strength. The hull was subdivided by 25 transverse watertight bulkheads and the engine room was divided by a longitudinal bulkhead. The double bottom had a height of 1.275m (04.183feet), and the vitals of the ship were protected by a triple bottom that added an extra 875mm of depth. The design called for a freeboard of 8.89m (29.17feet) forward, 6.24m (20.47feet) amidships and 6.49m (21.29feet) aft. The ships were fitted with three Frahm anti-rolling tanks on each side.[10]

Propulsion

The Borodinos were powered by four sets of steam turbines, each driving one propeller shaft using steam provided by 25 triangular Yarrow boilers with a working pressure of 17kg/cm2. The turbines developed a total of 66000shp and were designed to be overloaded to 90000shp. The forward boilers were grouped into three compartments with three oil-fired boilers in each compartment. The rear boilers were in four compartments with each containing four coal-fired boilers fitted with oil sprayers to increase the burn rate. Maximum speed was estimated at 26.5 knots, although forcing the machinery would increase it to . The ships were designed to carry 1974LT of coal and 1904LT of fuel oil, which gave an estimated range of 2280nmi at full speed.[6] [9] [11]

Two sets of steam turbines were ordered on 22 April 1913 from the Franco-Russian Works in Saint Petersburg for the Admiralty Shipyard-built ships, and the Baltic Works built the turbines for its ships, although some components were ordered from abroad.[12] However, Western sources have long stated incorrectly that the turbines for Navarin had been ordered from AG Vulcan, and that they were taken over at start of the war for use in the light cruisers. As well as being contradicted by original Russian and German records, this is technically impossible, as the turbines actually specified for Navarin were of the Parsons type, while those actually employed in the German cruisers were of the Curtis pattern. In fact, the Brummer class engines had been ordered for the lead ship of the Svetlana-class cruisers.[13]

The Borodino class had six turbo generators and two diesel generators, each rated at . These were in four compartments below the main deck, two each fore and aft of the boiler and engine rooms. The generators powered a complex electrical system that combined alternating current for most equipment with direct current for heavy-load machinery such as the turret motors.[14]

Armament

The ships' primary armament consisted of a dozen 52-calibre 356adj=onNaNadj=on Model 1913 guns mounted in four electrically powered turrets. The turrets were designed to elevate and traverse at a rate of 3° per second. The guns had an elevation range from −5° to +25°. They could be loaded at any angle between −5° and +15°; the expected rate of fire was three rounds per minute. Space was provided for a maximum of 80 rounds per gun. The guns fired 747.6kg (1,648.2lb) projectiles at a muzzle velocity of 731.5m/s, with a maximum range of 23240m (76,250feet).[9] [15]

The secondary armament consisted of twenty-four 55-calibre 130mm Pattern 1913 guns mounted in casemates in the hull, twelve per side.[9] [16] The guns had a maximum elevation of +20° which gave them a range of 15364m (50,407feet). They fired 36.86kg (81.26lb) projectiles at a muzzle velocity of 823m/s.[17]

The anti-aircraft armament was intended to be four 38-calibre 64mm anti-aircraft guns fitted on the upper deck with 220 rounds carried for each gun.[16] They fired 4.04adj=onNaNadj=on projectiles at a muzzle velocity of 686m/s.[18] Four 75mm guns were to be mounted in pairs on the main turret roofs for sub-calibre training with the main guns. Six underwater 450adj=onNaNadj=on torpedo tubes were fitted, three on each broadside; they were provided with a total of eighteen torpedoes.[9] [16]

Fire control

The fore and aft main gun turrets were given a 6m (20feet) rangefinder, and there was another 5m (16feet) unit on top of the conning tower.[16] These would provide data for the Geisler central artillery post analogue computer, which would then transmit commands to the gun crew.[19] The mechanical fire-control computer would have been either a Pollen Argo range clock, which had been bought in 1913, or a domestically designed Erikson system.[16]

Protection

The trials with Chesma greatly affected the armour protection design of the Borodino-class ships. The Krupp cemented-armour plates were resized to match the frames and provide support for their joints; they were also locked together with mortise-and-tenon joints to better distribute the shock of a shell's impact. The 237.5adj=onNaNadj=on waterline belt covered the middle 151.2m (496.1feet) of the ship. It had a total height of 5.015m (16.453feet), of which 3.375m (11.073feet) was above the design waterline and 1.64m (05.38feet) below. The remaining portion of the waterline was protected by 125mm plates. The upper belt was thick and had a height of . It thinned to 75 millimetres forward of the casemates and extended all the way to the bow. The rear portion of the forecastle deck was protected by an upward extension of the upper belt in the area of the forward barbettes and the upper casemates. Those casemates were protected by 100-millimetre transverse bulkheads. Behind the side armour was an inboard longitudinal splinter bulkhead that was thick between the middle and lower decks and decreased to between the middle and upper decks. The bulkhead sloped away from the edge of the lower deck to the lower edge of the armour belt with a total thickness of 75 millimetres divided between a 50-millimetre plate of Krupp non-cemented armour (KNC) layered above a 25-millimetre nickel-steel plate. The forward end of the armoured citadel was protected separately and the transverse bulkhead was therefore only 75 millimetres thick. The rear bulkhead had no other protection and was 300mm thick between the middle and lower decks, decreasing to 75 millimetres at the level of the armour belt.[16]

The main gun turrets were designed with 300-millimetre sides and 150-millimetre roofs. The gun ports would have been protected by 50-millimetre plates with 25-millimetre bulkheads separating each gun inside the turrets. The barbettes were 247.5mm thick and decreased to 147.5mm when behind other armour. They were shaped like truncated cones which matched the trajectories of descending shells and thus lessened their protective value. The conning tower was 400mm thick and reduced to 300 millimetres below the upper deck. The funnel uptakes were protected by 50 millimetres of armour. The upper deck was 37.5mm thick and the middle deck consisted of 40mm plates of KNC on 25 millimetres of nickel-steel over the armoured citadel. The sides of the conning tower were fitted with armour plates 400mm thick and its roof was 250mm thick. Underwater protection was minimal: there was only a 10mm watertight bulkhead behind the upward extension of the double bottom, and this became thinner as the hull narrowed towards the end turrets.[20]

Construction

All four ships were officially laid down on 19 December 1912, and work began in March–April 1913. After a progress review on 4 June 1914, launching of the first pair of ships was delayed until October. When World War I began in August, the hull of Izmail was judged as being 43per cent complete, the others lagging considerably behind.[21] The war caused further delays as some components had been ordered from foreign manufacturers. For example, the gun turrets were intended to rest on 8inches roller bearings made in Germany, but attempts to order replacements from the United Kingdom and Sweden proved futile, as no company was willing and able to make the bearings. The war caused other delays, including competition for scarce resources needed by other production deemed necessary for the war. Three of the four ships were launched in 1915, but it was clear that Russian industry would not be able to complete them during the war, mostly because the turrets were seriously delayed by non-delivery of foreign-built components and a shortage of steel. They were reclassified as second rank projects by the Main Administration of Shipbuilding in 1916 and construction virtually stopped.[22]

Various plans were made by the Naval General Staff and the Main Administration of Shipbuilding for the post-war completion of the ships, including modifying the turrets to load at a fixed angle of +4° to reduce the weight and complexity of the loading equipment. Another intended change was to lengthen the funnels by 2m (07feet) to minimise smoke interference with the bridge, which had been a problem on the Gangut-class dreadnoughts. There were suggestions to improve the machinery with geared turbines, turbo-electric drive, or Föttinger's hydraulic transmission, but these were more theoretical than practical.[23]

After the February Revolution, the condition of the ships was assessed on 28 April 1917. The ship that was furthest along was still Izmail: her hull, engines, and boilers were around 65per cent complete, and her armour was 36per cent complete. Her turrets were not expected to be completed until 1919. The Congress of Shipyard Workers decided to continue work on the Izmail in mid-1917, but only to provide jobs. The Provisional Government halted all work on Borodino, Kinburn, and Navarin on 24 October 1917, and the Bolsheviks ordered work on Izmail halted on 14 December 1917.[23]

After the end of the Russian Civil War was in sight by October 1921, the victorious Bolsheviks considered finishing Izmail, and possibly Borodino, to their original design. It would have taken at least two years to build all of Izmails turrets, even if enough guns had been available. Ten had been delivered by Vickers before the Revolution and one gun had been completed domestically in 1912, but the prospects for more guns were not promising, given the poor state of Soviet heavy industry in the wake of the civil war. Another problem was their complicated electrical system; it could not be completed under current conditions, and at least twenty months would be required to replace it with a simpler system.[24]

The Soviets also considered finishing Kinburn and Navarin to a modified design that featured 16inches guns; a two-gun turret weighed slightly less than a triple gun turret. The proposal was rejected because the prospects of actually acquiring such guns were minimal. Domestic industry was incapable of building such large guns and the Soviets were not able to purchase the guns from any foreign company. Other ideas were examined for the three less complete ships. These included converting the hulls to cargo ships, passenger liners, or 22000LT oil barges, but the hulls were thought to be too large and unwieldy for the proposed uses. None of the proposals was accepted, and all three of the less complete ships were sold to a German company for scrap on 21 August 1923 to raise much-needed cash for the government.[9] [25]

In May 1925, the Operational Administration of the Soviet Navy contemplated converting Izmail into an aircraft carrier with a top speed of and a capacity of 50 aircraft. She would have been armed with eight 183mm guns and her armour reduced to a maximum of . This proposal was approved by Alexey Rykov, Chairman of the Council of the People's Commissars on 6 July 1925, but the Red Army was strongly opposed to spending more money on naval projects. They managed to block the project by gaining control of a commission appointed to review the needs of the Navy in December, which cancelled the project on 16 March 1926.[26] After most of her boilers were used during the reconstructions of the battleships and,[27] Izmail was scrapped beginning in 1931 in Leningrad.[9] [28] [29]

Ships

The ships were named after battles fought by the Russian Empire:

Name! scope="col" rowspan=2 align="center"
Namesake[30] BuilderLaid down[31] LaunchedFateStatus on 28 April 1917
HullArmourEnginesBoilers
Izmail (Russian: Измаил)Siege of IzmailBaltic Works19 December 191222 June 1915scrapped, 193165%36%66%66%
Borodino (Russian: Бородино)Battle of BorodinoAdmiralty Shipyard31 July 1915sold for scrap, 21 August 192357%13%40%38.4%
Kinburn (Russian: Кинбурн)Battle of KinburnBaltic Works30 October 191552%5%22%7.2%
Navarin (Russian: Наварин)Battle of NavarinoAdmiralty Shipyard9 November 191650%2%26.5%12.5%

Bibliography

Further reading

External links

Notes and References

  1. McLaughlin, p. 244
  2. McLaughlin, p. 245
  3. Budzbon, p. 304
  4. McLaughlin, pp. 212–213
  5. McLaughlin, pp. 245–246
  6. Watts, p. 65
  7. McLaughlin, p. 247
  8. McLaughlin, pp. 247–248
  9. Taras, p. 39
  10. McLaughlin, pp. 243, 249, 251
  11. McLaughlin, pp. 244, 253–254
  12. McLaughlin, p. 253, especially footnotes 28 and 29
  13. Dodson & Nottelmann, p. 190
  14. McLaughlin, pp. 254, 332
  15. McLaughlin, pp. 251–252
  16. McLaughlin, p. 252
  17. Friedman 2011, p. 262
  18. Friedman 2011, pp. 264–265
  19. Friedman 2008, pp. 273–275
  20. McLaughlin, pp. 252–253
  21. McLaughlin, p. 248
  22. McLaughlin, pp. 248–249
  23. McLaughlin, p. 249
  24. McLaughlin, p. 332
  25. McLaughlin, pp. 332–335
  26. McLaughlin, pp. 335–336
  27. McLaughlin, pp. 344–345
  28. Breyer, p. 114
  29. Watts, p. 66
  30. Silverstone, pp. 373, 377, 379
  31. McLaughlin, p. 243