Bofors 40 mm gun
|Bofors 40 mm gun|
Bofors 40 mm/L60. This example includes the British-designed Stiffkey Sight, being operated by the aimer standing to the right of the loader (turned sideways). It operates the trapeze seen above the sights, moving the sights to adjust for lead.
|Place of origin||Sweden|
|Used by||See users|
|Wars||World War II,
Indo-Pakistani wars and conflicts,
Yom Kippur War,
South African Border War,
Lebanese Civil War,
|Manufacturer||Bofors Defence (1932–2000)
United Defense Industries (2000–2006)
BAE Systems AB (2006 onwards)
L/60: 1,981 kg (4,367 lb)
|Crew||dependent on use|
|Shell||Complete round: -
L/60 40×311mmR (1.57 in), L/70 40×364mmR
|Caliber||40 mm L/60–70 (actual length varies from 56–70 calibers, based on model)|
|Carriage||522 kg (1,151 lb)|
|Elevation||L/60: -5°/+90° (55°/s)
L/70: -20°/+80° (57°/s)
|Rate of fire||L/60: 120 round/min
L/70: 330 round/min
|Muzzle velocity||L/60: 881 m/s (2,890 ft/s)
L/70: 1,021 m/s (3,350 ft/s)
|Maximum firing range||L/60: 7,160 m (23,490 ft)
L/70: 12,500 m (41,000 ft)
The Bofors 40 mm gun, often referred to simply as the Bofors gun, is an anti-aircraft/multi-purpose autocannon designed in the 1930s by the Swedish arms manufacturer AB Bofors. It was one of the most popular medium-weight anti-aircraft systems during World War II, used by most of the western Allies as well as by the Axis powers. The cannon remains in service (as the main armament in the CV 90, among other uses) making it both one of the longest-serving and most widespread artillery pieces of all time. Bofors itself has been part of BAE Systems AB since March 2005.
The Swedish Navy purchased a number of 2 pounder Pom-Poms from Vickers as anti-aircraft guns in 1922. The Navy approached Bofors about the development of a more capable replacement. Bofors signed a contract in late 1928. Bofors produced a gun that was a smaller version of a 57 mm (6-pounder) semi-automatic gun developed as an anti-torpedo boat weapon in the late 19th century by Finspong. Their first test gun was a re-barreled Nordenfelt version of the Finspong gun, to which was added a semi-automatic loading mechanism.
Testing of this gun in 1929 demonstrated that a problem existed feeding the weapon in order to maintain a reasonable rate of fire. A mechanism that was strong enough to handle the stresses of moving the large round was too heavy to move quickly enough to fire rapidly. One attempt to solve this problem used zinc shell cases that burned up when fired. This proved to leave heavy zinc deposits in the barrel, and had to be abandoned. In the summer of 1930 they began experimenting with a new test gun that did away with controlled feed and instead flicked the spent casing out the rear whereafter a second mechanism reloaded the gun by "throwing" a fresh round from the magazine into the open breech. This seemed to be the solution they needed, improving firing rates to an acceptable level, and the work on a prototype commenced soon after.
During this period Krupp purchased a one-third share of Bofors. Krupp engineers started the process of updating the Bofors factories to use modern equipment and metallurgy, but the 40 mm project was kept secret.
The prototype was completed and fired in November 1931, and by the middle of the month it was firing strings of two and three rounds. Changes to the feed mechanism were all that remained, and by the end of the year it was operating at 130 rounds per minute. Continued development was needed to turn it into a weapon suitable for production, which was completed in October 1933. Since acceptance trials had been passed the year before, this became known as the "40 mm akan M/32". Most forces referred to it as the "Bofors 40 mm L/60", although the barrel was actually 56.25 calibres in length, not the 60 calibres that the name implies.
The gun fired a 900 g (2.0 lb) high explosive 40 × 311R (rimmed) shell at 2,960 ft/s (900 m/s). The rate of fire was normally about 120 rounds per minute (2.0 rounds per second), which improved slightly when the barrels were closer to the horizontal as gravity assisted the feeding from the top-mounted magazine. In practice firing rates were closer to 80–100 rpm (1.3–1.7 rounds per second), as the rounds were fed into the breech from four round clips which had to be replaced by hand. The maximum attainable ceiling was 7,200 m (23,600 ft), but the practical maximum was about 3,800 m (12,500 ft).
The gun was provided with an advanced sighting system. The trainer and layer were both provided with reflector sights for aiming, while a third crew-member standing behind them "adjusted" for lead using a simple mechanical computer. Power for the sights was supplied from a 6V battery.
In spite of the successful development, the Swedish Navy changed its mind and decided it needed a smaller hand-swung weapon of 13 mm-25 mm size, and tested various designs from foreign suppliers. With the 40 mm well along in development, Bofors offered a 25 mm version in 1932, which was eventually selected as the 25 mm akan M/32.
The first version of the 40 mm the Navy ordered was intended for use on submarines, where the larger calibre allowed the gun to be used for both AA and against smaller ships. The barrel was shorter at 42 calibers long, with the effect of reducing the muzzle velocity to about 700 m/s (2,300 ft/s). When not in use, the gun was pointed directly up and retracted into a watertight cylinder. The only known submarines that used this arrangement was the Sjölejonet-class boats. The guns were later removed as the subs were modified with streamlined conning towers.
The first order for the "real" L/60 was made by the Dutch Navy, who ordered five twin-gun mounts for the cruiser De Ruyter in August 1934. These guns were stabilized using the Hazemeyer mount, in which one set of layers aimed the gun, while a second manually stabilized the platform the gun sat on. All five mounts were operated by one fire control system.
Bofors also developed a towable carriage which they displayed in April 1935 at a show in Belgium. This mount allowed the gun to be fired from the carriage with no setup required, although with limited accuracy. If time was available for setup, the gunners used the tow-bar and muzzle lock as levers, raising the wheels off the ground and thereby lowering the gun onto supporting pads. Two additional legs folded out to the sides, and the platform was then leveled with hand cranks. The entire setup process could be completed in under a minute.
Orders for the land based versions were immediate, starting with an order for eight weapons from Belgium in August 1935, and followed by a flood of orders from other forces including Poland, Norway, and Finland. It was accepted into the Swedish Army the next year, known as the "40 mm lvakan m/36", the lower-case "m" indicating an Army model as opposed to the capital "M" for Navy.
Because of the labour shortages some of the Bofors 40mm factories were opened in Poland.
The Swedish Navy adopted the weapon as the m/36 in hand-worked single air-cooled, and power operated twin water-cooled version. A twin air-cooled mounting, probably hand-worked was also used by the navies of Sweden and Argentina and a twin air-cooled wet mounting was developed for Polish submarines.
The British Army had first examined the weapon when they received a number of Polish-built examples in 1937 for testing, known as the "QF 40 mm Mark I" (QF standing for "quick firing"), or "Mark I/2" after a minor change to the flash hider. A licence was acquired and the gun was converted from metric to imperial measurements. They also made numerous changes to the design to make it more suitable to mass production, as the original Bofors design was intended to be hand-assembled, and many parts were labeled "file to fit on assembly", requiring many man-hours of work to complete.
Testing showed that aiming the guns against high-speed aircraft was a serious problem. Although the gun could be trained quickly, aiming accurately while doing so proved difficult. In order to address this, the British introduced a complex mechanical analogue computer, the Kerrison Director, which drove the laying electrically. A three-man team operated the director simply by pointing it at the target and dialing in estimates for range and various atmospheric conditions. The director then aimed the guns directly through powered mounts, as the gunners loaded the clips. Backup sights were fitted to the individual guns, replacing the former reflector sight and lead-calculator with a ring-and-post sight known as a "pancake".
In this form, the "QF 40 mm Mark III" (Mk II was a designation used for a Vickers "pom-pom"), became the Army's standard light AA (anti-aircraft) weapon, operating alongside their 3-inch and 3.7-inch heavy weapons. The gun was considered so important to the defence of England after the fall of France in 1940 that a movie, The Gun, was produced to encourage machinists to work harder and complete more of them. By the end of the war total production from British, Canadian, and Australian factories was over 2,100, while U.S. lend-lease examples added about 150.
In combat it was found that the Kerrison was difficult to set up to use in many situations, as well as making logistics more complex due to the need to keep its electrical generator supplied with fuel. In most engagements only the pancake sights were used, without any form of correction, making the British versions less capable than those used by other forces. Eventually an anti-aircraft gunnery school on the range at Stiffkey on the Norfolk coast delivered a workable solution, a trapeze-like arrangement that moved the pancake sights to offer lead correction, operated by a new crew-member standing behind the left-hand layer. The "Stiffkey Sight" was sent out to units in 1943, arriving in Canadian units in the midst of the Battle of the Aleutian Islands. A final wartime change to the elevation mechanism resulted in the "QF 40 mm Mark XII". They also designed a much lighter two-wheeled carriage for airborne use.
The Army also experimented with various self-propelled AA systems (SPAAGs) based on various tank chassis. Changes to the breech for this role created the "QF 40 mm Mark VI", which was used on the Crusader to produce the Crusader III AA Mark I. The main self-propelled version of the Bofors used the gun set on the chassis of a Morris Commercial four-wheel drive lorry. Such guns were used in support of Army divisions to provide swift protection against air attack without the need to unlimber. this was known as the "Carrier, SP, 4x4 40mm, AA (Bofors) 30cwt". They saw service in North West Europe, where six SP Bofors of 92nd (Loyals) Light Anti-Aircraft Regiment, Royal Artillery, landed with the British 3rd Infantry Division on Sword Beach on D-Day to protect the vital bridges over the Caen Canal and Orne River (Pegasus Bridge and Horsa Bridge), shooting down 17 German planes. Later in the campaign, SP Bofors were used extensively for ground shoots as well as in an anti-aircraft role. In British army service the Bofors found a highly specialised role: during the North Africa Campaign at the Battle of El Alamein, they were used to fire tracer horizontally to mark safe paths for units through the German minefields. This practice was further developed during operations in North-West Europe, where bursts of colour-coded tracer were used to define the axis of advance of the different formations in large-scale night attacks.
The Royal Navy also made extensive use of the Bofors. Their first examples were air-cooled versions quickly adapted to ships during the withdrawal from Norway. With the fall of the west in 1940 the Dutch mine-layer Willem van der Zaan brought them their first example of a water-cooled gun on their Hazemeyer tri-axially stabilized mounting. Locally produced examples started arriving in 1942, known as the "QF 40 mm Mark IV" for use in twin-mounts, or the "QF 40 mm Mark V" for single mounts. The Navy ran through a variety of versions of the basic Bofors gun over the war, including the Mark VII to Mark XI. The Royal Navy's home-grown light anti-aircraft weapon, the QF 2-pounder gun, also had a caliber of 40 mm, but was referred to as the QF 2 pdr.
The designation of models in Royal Navy service is confused as the gun and its mounting received separate mark numbers. The following mountings were used;
- Mark I: twin mounting based on American design and using American built guns, not widely fitted. Fitted for remote fire control.
- Mark II: quadruple version similar to Mark I
- Mark III: a navalized version of the Army single mounting, hand worked elevation and training.
- Mark IV: a tri-axially stabilized twin mounting copied from, and usually known as, the "Hazemeyer". It had on-mounting fire control, and was usually fitted with Radar Type 282 to provide target range information.
- Mark V: twin mounting, that superseded and eventually replaced the Mark IV, often referred to as the "utility" mounting. This was a simplified, unstabilised mounting based on the American twin mounting Mark I, and was designed for remote fire control.
- Mark VI: a six-barreled weapon feeding from large trays instead of clips and designed for remote control from a dedicated radar-equipped director.
- Mark VII: a single barreled, hydraulically powered mounting that superseded the Mark III and entered service in 1945.
- Mark IX: Mark VII mount modified to electrical power, as the Mounting Mark IX, and in this form saw service in the Falklands War.
The Mounting Mark V (Mark VC for Canadian built examples) for the 20 mm Oerlikon and QF 2 pounder guns was also adopted initially as an interim mount for the Bofors. It was a single-barreled mounting with hydraulic power, and was known as the "Boffin".
The final British Bofors mounting that saw service was the "STAAG" (stabilized tachymetric anti-aircraft gun) which was twin-barrelled, stabilised, and carried its own tachymetric (i.e. predictive) fire control system, based around the centimeter Radar Type 262, capable of "locking on" to a target. This mounting was heavy (17.5 tons) and the high-vibration environment of the gun mounting was poor location for sensitive valve electronics and mechanical computers. STAAG Mark I carried the radar dish over the gun barrels where it was subject to damage during firing, therefore STAAG Mark II shifted the set to the roof of the control cabin. STAAG was ultimately too difficult to maintain in the harsh environment of a warship and was later replaced by the Mounting Mark V with the fire control equipment located remotely, the single Mark VII and ultimately, with the Sea Cat missile. The final version of STAAG was fitted to HMNZS Royalist in its modernisation, completed in 1956. Initially it had 3 STAAG CIWS, the STAAG in Q position was removed in 1960, but it carried two mounts until the end of its service in South East Asian waters, in 1965. The crew of Royalist appeared to find the STAAG a reasonably effective and impressive anti aircraft weapon during Operation Musketeer in 1956, off Egypt.
In order to supply both the Army and Navy with much greater numbers of the guns, Chrysler built 60,000 of the guns and 120,000 barrels through the war, at half the original projected cost, and filling the Army's needs by 1943. Over the lifetime of the production, their engineers introduced numerous additional changes to improve mass production, eventually reducing the overall time needed to build a gun by half; most of these changes were in production methods rather than the design of the gun itself.
There were many difficulties in producing the guns within the United States, beyond their complexity (illustrated by the use of 2,000 subcontractors in 330 cities and 12 Chrysler factories to make and assemble the parts). The drawings were metric, in Swedish and read from the first angle of projection, with lower precision than needed for mass production. Chrysler had to translate to English, fix absolute dimensions, and switch to the third angle of projection. Chrysler engineers also tried to simplify the gun, unsuccessfully, and to take high speed movies to find possible improvements, but this was not possible until near the end of the war.
"It should be noted that the USN considered the original Bofors Model 1936 design to be completely unsuitable for the mass production techniques required for the vast number of guns needed to equip the ships of the US Navy. Firstly, the Swedish guns were designed using metric measurement units, a system all but unknown in the USA at that time. Worse still, the dimensioning on the Swedish drawings often did not match the actual measurements taken of the weapons. Secondly, the Swedish guns required a great deal of hand work in order to make the finished weapon. For example, Swedish blueprints had many notes on them such as "file to fit at assembly" and "drill to fit at assembly," all of which took much production time in order to implement. Thirdly, the Swedish mountings were manually worked, while the USN required power-worked mountings in order to attain the fast elevation and training speeds necessary to engage modern aircraft. Fourthly, the Swedish guns were air-cooled, limiting their ability to fire long bursts, a necessity for most naval AA engagements. Finally, the USN rejected the Swedish ammunition design, as it was not boresafe, the fuze was found to be too sensitive for normal shipboard use and its overall design was determined to be unsuitable for mass production. US manufacturers made radical changes to the Swedish design in order to minimize these problems and as a result the guns and mountings produced in the USA bore little resemblance their Swedish ancestors."
The United States Navy's Bureau of Ordnance purchased a twin-mount air-cooled example directly from Bofors, which arrived in New York on 28 August 1940. During that month another Dutch ship, the van Kinsbergen, demonstrated the Hazemeyer mount to Navy observers. The gun was quickly chosen as the Navy's standard anti-aircraft weapon, and the Navy secretly imported a set of imperial designs from England and started production illegally. A formal contract with Bofors followed in June 1941. The resulting Mark 1 and Mark 2 weapons were intended for the left and right side of a twin mount, respectively, and were adapted by Chrysler for water cooling. After the war, the 3"/50 caliber gun Mark 27 mount began to replace the Bofors, because the "VT" proximity fuse would not fit a 40mm projectile.
The Navy's satisfaction with the weapons was demonstrated by their practice of telegraphing Chrysler Corporation with the serial numbers of guns when they shot down an aircraft.
The United States Army had recently introduced a 37 mm gun of their own design, but found it to be of limited performance. Six British Bofors were imported for testing, along with the Kerrison Directors, and proved to be superior in all areas.
In U.S. Army service, the single mount Bofors was known as the "40 mm Automatic Gun M1". The U.S. version of the gun fired three variants of the British Mk. II high-explosive shell as well as the M81A1 armor-piercing round, which was capable of penetrating some 50 mm of homogeneous armor plate at a range of 500 yards.
In German naval use, the gun was designated the "4 cm Flak 28", and was used aboard the cruisers Admiral Hipper and Prinz Eugen toward the end of the war. Beginning in 1942, several E-boats were equipped with the Flak 28 to enable them to fight against British MGBs and MTBs on equal terms.
Japan captured a number of Bofors guns in Singapore and put them into production as the Type 5.
Both Japan and West Germany continued to use the Bofors gun throughout the Cold War. The Federal German navy used it in destroyers, frigates, and fast patrol boats until 1984, in minesweepers to the present day.
40 mm L/60
Although the L/60 was later replaced in production by the L/70, the L/60 remained in front-line service well into the 1980s. In most cases, these were the ground anti-aircraft versions, as a suitable replacement in this role did not come along until the introduction of truly effective MANPADS missiles in the 1980s.
The L/60 saw active service with the Argentinian and British Navies in the 1982 Falklands War and continued to be used into the 1990s, when it was replaced by modern 20-mm and 30-mm artillery.
The Canadian Forces also used Bofors on their surface fleet, but removed the guns in the late 1980s when they were considered to be outdated. Bofors continue to be the main armament of the Kingston-class coastal defence vessel, although the navy is in the midst of a search for a suitable replacement.
As of August 2006, the French navy uses L/60s on more than twenty ships (patrols and auxiliaries). Ships of the Norwegian and Icelandic Coast Guards continue to use the 40mm Bofors gun. The L/60 continued in use in the Irish Army until recent years, when it was retired in favour of the radar-controlled L/70. Three P20-class patrol vessels of the Irish Naval Service retained L/60s on board as their main weapon until the 1990s but have now been rearmed with L/70s. Two retired L/60s can be seen adjacent the square in Sarsfield Barracks, Limerick.
The last 40 mm/60 Bofors in service with the Royal Australian Navy (RAN) were used as the main weapon aboard the Fremantle-class patrol boats, and for training purposes at the West Head gunnery range at HMAS Cerberus. These were removed from service during 2007; Bofors were used aboard almost every RAN ship to operate between the 1940s and the 1990s.
As of 2012, the L/60 is still in use by the military of Brazil, Paraguay and Taiwan.
40 mm L/70
By the end of World War II, jet aircraft had so increased the speed of attack that the Bofors simply could not get enough rounds into the air to counter the aircraft before it had already flown out of range. In order to counter these threats, the gun would have to have longer range and a higher rate of fire, thereby increasing the number of rounds fired over the period of an engagement. Bofors considered either updating the 40 mm, or alternately making a much more powerful 57 mm design, and in the end did both.
The new 40 mm design used a larger 40 × 364R round firing a slightly lighter 870g shell at a much higher 1,030 m/s (3,379fps) muzzle velocity. The rate of fire was increased to 240 rounds per minute (4.0 rounds per second), similar to the German Flak 43. Additionally the carriage was modified to be power-laid, the power being supplied by a generator placed on the front of the carriage. The first version was produced in 1947, accepted in 1948 as the "40 mm lvakan m/48", and entered Swedish service in 1951. Additional changes over the years have improved the firing rate first to 300 rpm (5.0 rounds per second), and later to 330 rpm (5.5 rps).
Foreign sales started, as they had in the past, with the Netherlands and the United Kingdom. In November 1953 it was accepted as the NATO standard anti-aircraft gun, and was soon produced in the thousands. The L/70 was also used as the basis for a number of SPAAGs, notably the U.S. Army's failed M247 Sergeant York.
In the Swedish Army Combat Vehicle 90 there is a cartridge fed, automatic version of the L/70 gun installed. In order to fit inside the vehicle, the gun is mounted upside down. New armour piercing and programmable ammunition have also been developed. Germany has used L/70 guns on its Class 352, Class 333 and Class 332 mine hunting vessels, although these will be replaced by Rheinmetall MLG 27 remote-controlled gun systems until 2008. Until the early 80s L/70 guns guided by D7B radars were in widespread use in the anti-aircraft role in the German Navy and German Air Force until replaced by Roland SAMs. The L/70's modified gun is also chosen as the default main gun for the K21 IFV for the Republic of Korea military.
Breda (now Oto Melara) of Italy uses Bofors 40 mm L/70 gun in its anti-aircraft weapon systems Type 64, Type 106, Type 107, Type 564 and Type 520. Also they have developed a CIWS system named DARDO for the Italian Army and Navy. A newer development from Breda, the Fast Forty (essentially a DARDO gun mount with twin 40mm/L70 guns), has nearly doubled the rate of fire to 450 rpm (7.5 rounds per second) (2 × 450 in twin mount), normally equipped with a 736 round magazine and a dual feed mechanism for naval use.
Since the beginning of the 1970s Bofors L/60s are still used in the United States Air Force's AC-130 gunships in the air-to-ground role. There were plans to remove these and the Gatling guns on newer AC-130U variants and replace them with 30-mm autocannons. However, these plans did not come to fruition, and the Bofors and Gatlings are still in service.
When four additional AC-130Us were to be converted from 2002, the necessary 40 mm L/60 guns had to be salvaged from old M42 targets at the Nellis AFB range.
- "Sweden Bofors 40 mm/60 (1.57") Model 1936". NavWeaps.Com. 14 January 2011. Retrieved 24 September 2011.
- Johnson, Melvin M., Jr. (1944). Rifles and Machine Guns. William Morrow and Company. p. 385.
- Stephen Priestley (June 2006). "The Kingston Class: 'Mid-Life' or Move Over for the MCDV?". Canadian American Strategic Review. Retrieved 2012-01-09. "Among MCDV inadequacies, armament is listed as the major limit- ation for sovereignty patrol duties. The Kingston class are armed with twin 12.7mm M2HB machineguns on either side of the bridge but the main armament is a 40mm L/60 Bofors. This gun is a museum piece dating back to 1944. Even as training weapons, the Bofors is of dubious value – they were just on hand and lowered costs."mirror
- "Chrysler Corporation, Gun Maker: Bofors Guns of World War II". Allpar. Retrieved 2010-11-04.
- Borth, Christy. Masters of Mass Production, pp. 164-5, 197, 200-4, Bobbs-Merrill Company, Indianapolis, IN, 1945.
- Campbell, p. 254
- "Last blast for Bofors". Royal Australian Navy. 2007. Retrieved 2009-09-14.
- "Development and employment of fixed-wing gunships 1962-1972". Office of Air Force History, United States Air Force. 1982. Retrieved 2013-10-11.
- "A Spookier Spooky, 30mm at a Time? Nope.". Defense Industry Daily. 2009. Retrieved 2013-10-11.
- "Air Commando Journal, Summer 2012, p.22".
- Campbell, John. Naval Weapons of World War Two. Annapolis: Naval Institute Press, 1985. ISBN 0-87021-459-4.
- Rae, CJE, Harris, AL & Bryant, RK 1987, On target: the story of the 2/3 Australian Light Anti-Aircraft Regiment from formation on 18 July 1940 until disbandment on 14 July 1943 and the subsequent service of 7th Battery, 8th Battery, and 9th Battery, until the end of World War II, 2/3rd Australian Light Anti-Aircraft Regiment Association, [Melbourne].
- Gander, T 1990, The 40mm Bofors gun, 2nd edn, Patrick Stephens, Wellingborough, Eng.
- Bishop, C (ed.) 2002, Encyclopaedia of weapons of World War II, MetroBooks, New York.
|Wikimedia Commons has media related to Bofors 40 mm gun.|
- 1940 Popular Science cover illustration of twin 40mm Bofors in Swedish service
- "New Tools For Army Power", October 1941, Popular Science, pages 73–74 on testing of US version of 40mm Bofors
- 40-mm Automatic Gun M1 (AA) and 40-mm Antiaircraft Gun Carriages M2 and M2A1 TM 9-252
- 40 MM Antiaircraft Gun, OP 820, 1943 : Navy Service Manual placed online courtesy of maritime.org
- Data and spec comparison of various marks of Bofors 40mm L/60
- Data and Spec comparison of various marks of Bofors 40mm L/70
- Rae, CJE, Harris, AL & Bryant, RK 1987, On target: the story of the 2/3 Australian Light Anti-Aircraft Regiment from formation on 18 July 1940 until disbandment on 14 July 1943 and the subsequent service of 7th Battery, 8th Battery, and 9th Battery, until the end of World War II, 2/3rd Australian Light Anti-Aircraft Regiment Association, Melbourne