The G7a(TI) was the standard issue ''

Kriegsmarine The (, ) was the navy of Germany from 1935 to 1945. It superseded the Imperial German Navy of the German Empire (1871–1918) and the inter-war (1919–1935) of the Weimar Republic. The was one of three official branches, along with the a ...

torpedo A modern torpedo is an underwater ranged weapon launched above or below the water surface, self-propelled towards a target, and with an explosive warhead designed to detonate either on contact with or in proximity to the target. Historically, ...

introduced to service in 1934. It was a steam-powered design, using a

wet heater A modern torpedo is an underwater ranged weapon launched above or below the water surface, self-propelled towards a target, and with an explosive warhead designed to detonate either on contact with or in proximity to the target. Historically, su ...

engine burning decaline, with a range of at speed. In 1936, the Kriegsmarine's first electrical powered torpedo was introduced with the G7e(TII). It was replaced beginning in 1942 by the

G7e(TIII) The G7e torpedo was the standard electric torpedo used by the German ''Kriegsmarine'' submarines in World War II. It came in 20 different versions, with the initial model G7e(TII) in service at the outbreak of the war. Due to several problems, l ...

. The G7a(TI) remained in service as the main torpedo of Kriegsmarine for the length of the war, being the only torpedo used from surface vessels, and alongside electric torpedoes on the uboats.

Design

The G7a(TI) torpedo was 533.4 mm (21 in) in diameter, 7163 mm (23 ft 6 in) in length (with a type Ka or Kb warhead and Pi1 or Pi2 pistol), the warhead holding a charge of approximately 280 kg (617lbs) of so-called Schießwolle 36. It was Kriegsmarine's first operational torpedo (hence "TI" = Torpedo number one), and the standard issue torpedo for all German

U-boats U-boats were naval submarines operated by Germany, particularly in the First and Second World Wars. Although at times they were efficient fleet weapons against enemy naval warships, they were most effectively used in an economic warfare rol ...

and surface torpedo-bearing vessels from 1934 to the end of WW2. Gyroskop G 7a

The torpedo was a straight-running unguided design, controlled by a

gyroscope A gyroscope (from Ancient Greek γῦρος ''gŷros'', "round" and σκοπέω ''skopéō'', "to look") is a device used for measuring or maintaining orientation and angular velocity. It is a spinning wheel or disc in which the axis of rot ...

. The TI had variable speed, running a distance of 5,000 m at 81 km/h (5,500 yd at 44kt), 7,500 m at 74 km/h (8,250 yd at 40 kt), and 12,000 m at 55.6 km/h (13,200 yd at 30 kt). The 44 kt setting was used only by

torpedo boats A torpedo boat is a relatively small and fast naval ship designed to carry torpedoes into battle. The first designs were steam-powered craft dedicated to ramming enemy ships with explosive spar torpedoes. Later evolutions launched variants of s ...

like the ''Schnellboote'' on torpedoes with a reinforced engine. The TI was the last naval torpedo of German design in operational use with the traditional standard wet heat method of propulsion. The torpedo was powered by an engine fed by a mixture of compressed air and steam. Decaline fuel was burning in a combustion chamber, creating steam from fresh water. The torpedo's speed was determined by the level of pressure (three settings for 30/40/44 kn) from the low-pressure regulator feeding air to the bottom of the combustion chamber. The resulting superheated steam powered a four

cylinder A cylinder (from ) has traditionally been a three-dimensional solid, one of the most basic of curvilinear geometric shapes. In elementary geometry, it is considered a prism with a circle as its base. A cylinder may also be defined as an ...

reciprocating engine A reciprocating engine, also often known as a piston engine, is typically a heat engine that uses one or more reciprocating pistons to convert high temperature and high pressure into a rotating motion. This article describes the common fe ...

, in turn powering a pair of

contra-rotating propeller Aircraft equipped with contra-rotating propellers, also referred to as CRP, coaxial contra-rotating propellers, or high-speed propellers, apply the maximum power of usually a single piston engine, piston or turboprop engine to drive a pair of ...

s. Though this system of propulsion gave the TI great speed and endurance it had the distinct disadvantage of being very noisy and leaving a long wake of bubbles, common to most torpedoes of the period, with the exception of the Japanese Type 93 and submarine Type 95, which were fuelled by enriched oxygen. For U-boats, this relegated the TI for use mainly at night, when its wake was least noticeable, so as to not give away the element of surprise and the location of the submarine that fired it. During daytime, the electric torpedoes were favoured. The TI was initially fitted with a combined mechanical/magnetic exploder. This had both issues with the design of the mechanical deflection arms being too short, and the magnetic igniting-mechanism failing to be properly tuned for the natural magnetic fields in the northern hemisphere and narrow fiords. These issues led to premature or late detonations, as well as failing to detonate even when hitting the target in numerous cases during the period of 1939-41 known as the German "Torpedokrise" (''torpedo crisis''). Also, the depth mechanism had a design-issue leading to leakage of vacuum when stored on the U-boats, causing the torpedo to run deep. The problems were common for the TI and TII torpedoes, but the TI also had issues with weak engine blocks (cracking at 44 kt setting), and the TII had issues with poorly performing batteries. The problems were so serious, Admiral Dönitz said, "...never before in military history has a force been sent into battle with such a useless weapon."Bekker, quoted p.132. In general, all issues were resolved by 1942 when new depth mechanisms and new pistols had been developed and put into service. The TII was then also replaced by the TIII with improved batteries.

Use

There is at least one recorded case of a U-boat being bombed based upon her position being given away by a TI's wake. On 14 September 1939, ''U-30'' was attacked by loitering United Kingdom

Fairey Swordfish The Fairey Swordfish is a biplane torpedo bomber, designed by the Fairey Aviation Company. Originating in the early 1930s, the Swordfish, nicknamed "Stringbag", was principally operated by the Fleet Air Arm of the Royal Navy. It was also us ...

naval

bomber A bomber is a military combat aircraft designed to attack ground and naval targets by dropping air-to-ground weaponry (such as bombs), launching torpedoes, or deploying air-launched cruise missiles. The first use of bombs dropped from an air ...

s when she fired a TI from her

stern The stern is the back or aft-most part of a ship or boat, technically defined as the area built up over the sternpost, extending upwards from the counter rail to the taffrail. The stern lies opposite the bow, the foremost part of a ship. Or ...

torpedo tube A torpedo tube is a cylindrical device for launching torpedoes. There are two main types of torpedo tube: underwater tubes fitted to submarines and some surface ships, and deck-mounted units (also referred to as torpedo launchers) installed aboa ...

at the SS ''Fanad Head''. ''U-30'' was undamaged in the attack and served until she was

scuttled Scuttling is the deliberate sinking of a ship. Scuttling may be performed to dispose of an abandoned, old, or captured vessel; to prevent the vessel from becoming a navigation hazard; as an act of self-destruction to prevent the ship from being ...

at the end of the war. The TI were also issued in versions with program-steering gyroscopes, using the Fat I and Lut I or Lut II pattern running mechanisms - primary for use in attacking

convoy A convoy is a group of vehicles, typically motor vehicles or ships, traveling together for mutual support and protection. Often, a convoy is organized with armed defensive support and can help maintain cohesion within a unit. It may also be used ...

Technical data for G7a(TI) torpedo

* Type: Standard, straightrunning torpedo with wet-heater propulsion and whitehead tail * Design: 1933 * Operative service in Kriegsmarine: 1934–1945 * Length (prepared for launch with warhead): 7163 mm * Diameter: 533.4 mm (21") * Weight (prepared for launch with warhead): 1538 kg * Charge, warhead: Ca. 280 kg (weight and type of explosives varied with type of head) * Boostercharge (Pi1 pistol): 300 g Pentrite * Minimum angle of impact to detonate (Pi1 pistol, mechanical mode): 16 degrees * Speed: 30 kn ("Weitschuß", WS) / 40 kn ("Nahschuß", NS) / 44 kn ("Schnellschuß", SS) 1) * Depthsetting: 1–12 m (TA-I), 1–15 m (TA-II) * Arming distance (Pi1 pistol): 100 m (black impeller) / 150 m (red impeller) / 300 m (blue impeller) 2) * Propulsion: 4-cylinder steam engine (powered by a mixture of overheated steam and compressed air) * Fuel: Decaline * Power output, engine: 110 Hp (30 kn) / 255 Hp (40 kn) / 350 Hp (44 kn) * Engine RPM: 1170 (30 kn) / 1280 (40 kn) / 1470 (44 kn) * Propeller: 2 × 6-blade (contra-rotating) 3) * Max running distance: 12000 m (30 kn) / 7500 m (40 kn) / 5000 m (44 kn) * Capacity, air-tank: 676 L (200 kg/cm²) * Freshwatercompartment: 57 L * Fueltank: 14.5 L * Oiltank (engine): 6.5 L * Oiltank (low-pressure regulator): 0.3 L * Steering: Mechanical gyroscope powered by pressurised air (GA VIII) with anglesetting mechanism (+/- 90 degrees from initial course after launch) * Depthcontrol: Hydrostatic mechanism with pendulum (TA-I or TA-II) Note 1) 44kn was used only by S-Boote (problems with initial design led to breakdown on engines running 44 kn, so this setting was banned until the new engine was available). Note 2) Black used only from shore torpedo batteries, red from uboats and blue from surface vessels. Note 3) Early versions had 4-blade propellers. Post war use: The TI were used post-war by several navies with different modifications and designations (Marina Española: G-7a, Bundesmarine: DM11, Royal Danish Navy: T1 and T1T, Royal Norwegian Navy: T1 and T1 mod 1). Last known operator was RNoN with the T1 mod 1 (G7a with wire-guidance: Although four modifications to the torpedo were carried out over the years – the last with computerised control in 1992 – the same designation "mod 1" was applied throughout its service). In the RNoN, T1 mod 1 was used from FACs (until ca 1995), submarines (until ca 1990) and Coastal artillery shore batteries (until 2001). Other versions: * G7a(TI Fat I): TI with Fat I programsteering 1) * G7a(TI Lut I): TI with Lut I programsteering 1) * G7a(TI Lut II): TI with Lut II programsteering 1) * G7a(TIü): TI dedicated for use with Schulboote at U-Flotillen. The torpedo was equipped with the older type depth-mechanism, the lead ballast was removed from the water chamber and a special "light" exercise head was fitted (it was empty, i.e. no water and blowing mechanism). This was done to ensure positive buoyancy at the end of the run. Minor adjustments were also done to the air regulators and combustion chamber to lower the temperature of the drive gas (i.e. mixture of steam and pressurized air). These measures lead to a decrease in range, but achieved the overall goal of significantly fewer incidents of damaged or lost torpedoes, and a higher number of exercise-shots for the crews. * G7a(TIü Lut II): T1ü with Lut II 2) * G7a(TIV): TI with changed buoyancy (max air pressure reduced from 200 to 100 kg/cm²) for the Seehund midget submarine, with sinker-mechanism (never fielded). * G7as: TI with acoustic seeker (never fielded, nor designated a KM torpedonumber) Note 1) For launch with program setting, speed could only be set to 30 kn. Note 2) For launch with program setting, speed could be set to 30 or 40 kn. Exercise- and Warheads/pistols used on the TI: Exersiceheads: * Type 1210 or type 1215 (improved head with dual blow-mechanisms) Warhead/pistol statutory combinations according to Kriegsmarine regulations: * Ka, Ka1 or Ka2 with Pi1, Pi1a or Pi1c pistols * Kc with Pi3 or Pi3c pistols * Kc1 or Kc2 with Pi3, Pi3a or Pi3c pistols Warhead/pistol possible (technically) combinations – only on special demand, approved by torpedo-arsenal and with special consideration to depth-settings in order to assure proper function of the pistol: * Kb or Kb1 with Pi1, Pi1a, Pi1c, Pi2*, Pi2c* or Pi2c* pistols (* only heads with extended pocket)

References

Notes

Sources

*Bekker, Cajus. ''Hitler's Naval War''. New York: Zebra Books/Kensington Publishing Corp., 1977. (Reprints 1974 MacDonald and Jane's 1971 translation of Gerhard Stalling Verlag edition) *Blair, Clay, Jr. ''Silent Victory''. New York: Bantam, 1976. (Reprints Lippincott 1975 edition) *Eberhard Rössler. ''Die Torpedos der deutschen U-Boote'' (2.ed), 2005 () *Kriegsmarine (T.V.A.): ''Technische Dienstvorschrift Nr. 194 Torpedo-Kopf-Pistolen-Tabelle'', 1944 *Bundesmarine: ''Deutsche Unterwasserwaffen - Torpedos'', 1967 (German translation of U.S. Navy Ordnance Pamphlet 1673B) *Bundesmarine: ''Torpedo Zünder der Deutschen Marine von 1914 bis 1968 mit historischen Rückblick Band 1'', ca 1975 *Bundesmarine: ''TDv 1356/004-20 Teil 2 - Bedienungsanweisung einschlisslich Pflege und Sicherheitsmassnahmen für Torpedo DM11 (G7a)'', 1965 *Royal Norwegian Navy. ''SEP-116 Technical manual for Torpedo T1 mod 1'', ca 1990 (unofficial - intended as replacement for several regulations like E.12, E.19 etc.) *Royal Norwegian Navy. ''E.12 Manual for torpedo T1 mod 1'', ca 1950

External links

Bismarck class – G7a T1
{{Webarchive, url=https://web.archive.org/web/20060116235046/http://www.bismarck-class.dk/technicallayout/armament/torpedog7at1.html , date=16 January 2006

World War II torpedoes of Germany de:G7 (Torpedo)