20 cm/50 (8") 3rd Year Type No. 2
Updated 16 December 2013

These guns were developed in 1930-1931 in order to achieve the maximum caliber allowed for cruisers under the Naval Limitation Treaties of the time.  All heavy cruisers built after 1932 were armed with these weapons while older cruisers that had been originally armed with the 20 cm (7.9") No. 1 guns had them replaced with these more powerful weapons.  In addition, the Mogami class cruisers had their 15.5 cm (6.1") triple mounts replaced by the 20 cm (8") gun in twin mounts while the design of the Tone class was altered during construction to use these guns.  By the start of the Pacific War, the changeover was complete and all Japanese heavy cruisers were armed with these weapons.

 Some mountings were given high elevation capability with the idea that they could be used against aircraft, but the guns had a low rate of fire and the mountings could not train or elevate quickly enough to be effective in the AA role.  As the surface fire control system was separated from the AA fire control system, switching from one to the other was a complicated process, resulting in a slow transition.

Large dispersion patterns were a problem with these ships during their early service life, with Takao in 1933 reporting patterns of 483 meters (530 yards) at a mean firing range of 19,300 meters (21,100 yards).  In a target shoot against the old minelayer Aso (ex-Russian Armored Cruiser Bayan) in 1932, the cruisers Nachi and Myôkô repeatedly straddled at ranges between 15,800 and 22,300 meters (14,450 and 20,390 yards) yet failed to score a single hit because of dispersion patterns of about 350 meters (380 yards).

Much effort was put into reducing dispersion by stiffening the hull structure, following which the Nachi class in 1936 achieved patterns of 280 to 330 meters (306 to 360 yards) at ranges of 20,000 to 22,000 meters (21,870 to 24,060 yards).  The Japanese also introduced electro-mechanical aids, such as the Type 98 (Model 1938) Gunfiring Delay Installation which consisted of a "trigger time limiting device" which reduced the time of firing to less than 0.2 seconds after the circuit was made and a "firing time separator" which produced a lag of 0.03 seconds between the firing of each gun in a turret.  This latter device was to make the shells leave each gun barrel at slightly different times, thus reducing their mutual interference in flight.  These devices reduced dispersion by about 10-15%.  Patterns for the 10-gun cruisers were reported as being very small at the Battle of Samar in 1944.

Nomenclature note:  Even though these guns were developed in 1930 to 1931, they were still designated as Type 3 (Model 1914).  The No. 2 (2 GÔ) designation was used to distinguish these guns from the older 20 cm (7.9") Type 3 No. 1 (1 GÔ) guns.

Actual bore diameter was 20.32 cm (8.0").  Constructed of A tube, full-length jacket, breech ring, breech bush and used a Welin screw breech operated by hydraulic power or hand.


Heavy Cruiser Myôkô at the end of World War II
Alongside are the former German submarines I.501 (ex-U181) and I.502 (ex-U862)
IWM photograph A 30701

Click here for additional pictures
Gun Characteristics
Designation 20 cm/50 (8") 3rd Year Type (Model 1914) 2 GÔ (No. 2)
Ship Class Used On All Heavy Cruisers after 1940
Date Of Design 1930 (actual design date)
Date In Service 1931
Gun Weight 18.7 tons (19 mt)
Gun Length oa 405.9 in (160 cm)
Bore Length 393.70 in (10.000 m)
Rifling Length 333.9 in (10.310 m)
Grooves (48) 0.090 in deep x 0.327 in (2.28 mm x 8.299 mm)
Lands 0.197 in (5.00 mm)
Twist Uniform RH 1 in 27.56
Chamber Volume 4,150 in3 (68.0 dm3)
Rate Of Fire
(see Note 1)
3 to 4 rounds per minute

1) The ammunition supply for the Aoba and Furutaka classes was three complete rounds per gun per minute while that for the other classes could provide a maximum of four complete rounds per gun per minute.  As loading was at a fixed angle and the elevation speeds were relatively slow, the rate of fire slowed at higher elevations to a maximum of 3 rounds per minute at +55 degrees and 2 rounds per minute at +70 degrees.

2) When it came time for Furutaka and Kako to be rearmed in the 1930s, production difficulties held up deliveries of the 20 cm (8") 2 GÔ guns intended for these ships.  Rather than wait for these guns to be completed, the Japanese instead took 20 cm (7.9") 1 GÔ guns removed from Haguro and Ashigara, rebored and relined them to 20.3 cm (8"), and then installed them onto Furutaka and Kako.  I would assume that these guns would have been replaced with standard 20 cm (8") No. 2 weapons during any regunning operations during the war.

Type Bag
Projectile Types and Weights
(see Note 1)
AP Type 91 - 277.4 lbs. (125.85 kg)
Common Type 91 HE - 277.4 lbs. (125.85 kg)
Common Type 0 HE - 277.4 lbs. (125.85 kg)
Common Type 3 IS - 277.4 lbs. (125.85 kg)
Illum Shell B - 277.4 lbs. (125.85 kg)
Bursting Charge AP Type 91 - 6.9 lbs. (3.11 kg)
Common Type 91 HE - 18.0 lbs. (8.2 kg)
Common Type 0 HE - 18.0 lbs. (8.2 kg)
Projectile Length AP Type 91 - 35.68 in (90.62 cm)
Common Type 91 HE - 35.83 in (91.0 cm)
Common Type 0 HE - 34.65 in (88.0 cm)
Common Type 3 IS - 34.07 in (86.55 cm)
Propellant Charge 74.5 lbs. (33.80 kg) 53 DC
Muzzle Velocity All except Illum - 2,756 fps (840 mps)
Illum - 2,330 fps (710 mps)
Working Pressure 19.9 tons/in2 (3,130 kg/cm2)
Approximate Barrel Life 320 - 400 rounds
Ammunition stowage per gun 120 - 126 rounds

1) IS is my abbreviation for the incendiary shrapnel round (sankaidan) intended for AA use.  This was officially listed as a Common shell, but was actually an incendiary fragmentation round.

2) The propellant charge was in two bags.

3) Type 91 shells were all 6 / [infinity] crh with boat tail and two copper driving bands.  The diameter of the bourrelet was 7.96 in (20.218 cm).  These 20 cm (8") Type 91 shells were not true "APC" projectiles as they lacked a cap, having only a cap head and windshield.  Cap head and windshield together weighed 17 lbs. (7.7 kg).  There were true APC projectiles, designated as Type 91 Mod 1, but these were used only for armor penetration experiments and were not in service.

4) The Shômeidan B Illumination round had an effective range of 17,500 yards (16,000 m) and an illuminating power of 1.6 million candelas.  The maximum ballistic range was 24,900 yards (22,770 m).

5) In addition to the projectiles listed above, there were also Type 91 Exercise and Type 91 Timed Exercise shells.

6) According to "Japanese Cruisers of the Pacific War," the average maximum range for the 10-gun cruisers for daylight actions increased from about 16,840 yards (15,400 m) in 1924 to greater than 21,870 yards (20,000 m) by 1937 and the estimated hit projection increased from 3.0% at 21,870 yards (20,000 m) in 1930-34 to 6.0% in 1935-1940.  The actual percentage of hits achieved during the war was much lower than these figures, a not unusual experience.

With 277 lbs. (125.6 kg) AP
Striking Velocity
Angle of Fall
2.4 degrees
5,470 yards (5,000 m)
2,133 fps (650 mps)
5.3 degrees
10,940 yards (10,000 m)
1,634 fps (498 mps)
10.5 degrees
16,400 yards (15,000 m)
1,299 fps (396 mps)
18.0 degrees
21,870 yards (20,000 m)
1,194 fps (364 mps)
30.0 degrees
27,340 yards (25,000 m)
1,247 fps (380 mps)
40.0 degrees
31,600 yards (28,900 m)
45.0 degrees
32,150 yards (29,400 m)
Armor Penetration with 277 lbs. (125.6 kg) AP Shell
Side Armor
Deck Armor
10,940 yards (10,000 m)
7.5" (190 mm)
19,690 yards (18,000 m)
4.7" (120 mm)
32,150 yards (29,400 m)
2.9"   (74 mm)
Note:  This data is from "Anatomy of the Ship:  The Heavy Cruiser Takao" and refers to NVNC armor.
Mount / Turret Data
Designation Two-gun Mountings

   Aoba (3):  Modified Model C
   Myôkô (5):  Modified Model D
   Takao class except Maya (5):  Model E
   Maya (5):  Model E1
   Furutaka (3):  Model E2
   Mogami (5):  Mogami Model (also known as Modified E2)
   Tone (4) and Ibuki (5):  Model E3

Weight  163 - 172 tons (166 - 175 mt)
(see Notes 3 and 5)
C and D:  -5 / +40 degrees
E:  -5 / +70 degrees
E1, E2, Modified E2 and E3:  -5 / +55 degrees
Elevation Rate  C, D, E2, Modified E2 and E3:  6 degrees per second
E and E1:  12 degrees per second
Train About +120 / -120 degrees
Train Rate 4 degrees per second
Gun recoil N/A
Loading Angle +5 or +7 degrees

1) These mountings varied in detail from class to class and even within a class but many features were the same.  They were operated with very noisy electric motor driven oil hydraulic pumps located in the revolving structure.  Damage to rubber covered wiring by oil leaks was a common complaint.  Run out was by compressed air.  Elevation was by rack and pinion on the Model C, D and E1 mountings and by hydraulic actuators on the other Model E mountings.  The Modified E2 and the Model E3 mountings had 315 inch (8 m) rangefinders, the other Models had 236 inch (6 m) rangefinders.

2) During modernization and replacement of the 20 cm (7.9") No. 1 guns with the 20 cm (8") No. 2 guns, the Furutaka class was converted from six Model A single mounts to three Model E2 twin mounts.  Although externally these looked like the Model E mounts, internally the gunhouses and ammunition supply arrangements including hoists resembled the Model C mountings used on the Aoba class.

3) When converted to the No. 2 guns, the Model C and Model D mountings were modified to increase their maximum elevation to +40 degrees.  Some accounts infer that Aoba was later modified to increase maximum elevation to +50 degrees.

4) The Modified E2 turrets used on the Mogami class had a larger diameter roller path than the other Models in order to fit the larger diameter roller path used for the 15.5 cm guns turrets.  These turrets were also somewhat longer than the other Model E gunhouses.  As the 20 cm guns were longer than the 15.5 cm guns they replaced, the guns of No. 2 turret could not depress below +12 degrees when trained on the centerline.  Otherwise, they would have struck No. 1 turret.  Taking these two items into account, it would appear to be a myth that these ships were designed from the start with the potential for mounting 20 cm guns.

5) The Model E and Model E1 mountings had two shell hoists per gun, while all other Models had one.  The second hoist was intended to support anti-aircraft firing by making it easier to change ammunition types, but they resulted in a larger turret trunk, a larger lower chamber, increased turret weight and added crewmen.  As loading was performed at +5 degrees and the training and elevation speeds were relatively slow, the reality was that these mounts were of little use for anti-aircraft defense.  The maximum elevation of the Model E was +70 degrees, but the elevating and recoil mechanisms proved to be fragile and it was found that +55 degrees was the maximum practical elevation.  The other Model E mountings were designed for a maximum elevation of +55 degrees.

6) The hull and barbettes of the Tone class had already been completed up above the armored deck when the main armament was changed from triple 15.5 cm turrets to twin 20 cm turrets.  As the twin 20 cm turret needed a smaller diameter roller path than the triple 15.5 cm turret, this meant that the diameter of the completed portion of the barbettes was now too large for the twin 20 cm turrets.  To compensate, the design for the top of the barbettes was altered to a conical shape with a diameter of 18.7 feet (5.70 m) at the lower level and 16.4 feet (5.00 m) at the upper level.  The follow-on Ibuki class were to use the same E3 turrets as the Tone class, but these later ships were designed from the start with 16.4 foot (5.00 m) diameter barbettes.  However, the distance between the centerlines of No. 1 and No. 2 barbette on the Ibuki class was the same as for the Mogami class, which meant that the guns in No. 2 turret still needed to be raised in order to clear No. 1 turret (see Note 4 above).

7) The gun axes were 74.8 in (190 cm) apart for all Models.

8) As originally completed in the 1920s, the Model C and Model D mountings used pusher hoists for the powder charges that effectively created a continuous powder train between the gun breeches and the magazines.  These powder hoists were replaced by bucket hoists in 1930s which gave improved protection from flash.  Shell hoists remained pusher types.  Flashtight doors were fitted to all shell and powder hoists at both the lower and upper ends.  Revolving flash tight scuttles were fitted between the magazines and powder handling rooms.  These changes did slow the supply of ammunition to four charges per minute.  However, the new arrangements proved their worth when a flareback wrecked Turret No. 2 on Ashigara in the summer of 1935.  Although 41 men were killed or injured, the flash did not penetrate down into the magazines.  Model E mountings also incorporated these improvements.

9) Model E mountings (and the Model B mountings used on Akagi and Kaga) differed from earlier mountings in having flat instead of sloped roofs and in that the rangefinders were partially within the mounting instead of being superimposed.  The entry doors on the rear of these Model B and Model E mountings had a curved top while the doors on the earlier Models were rectangular.

10) Model C, Model D and those Model E mountings with one shell hoist per gun had a crew of 19 in the gunhouse, nine in the shell room and ten more in the powder magazine.  Those Model E mountings with two shell hoists per gun had a crew of 23 in the gunhouse and more in the shell rooms.

Data from
"Naval Weapons of World War Two" by John Campbell
"Japanese Cruisers of the Pacific War" by Eric Lacroix and Linton Wells II
"The Japanese Super Battleship Strategy" article by Hans Lengerer in "Warship Volume VII"
"Anatomy of the Ship:  The Heavy Cruiser Takao" by Janusz Skulski
"Cruisers of World War Two" by M.J. Whitley
"The Japanese Ships of the Pacific War" by The Koku-Fan
US Naval Technical Mission to Japan report O-19:  Japanese Projectiles General Types
US Naval Technical Mission to Japan report O-47(N)-1:  Japanese Naval Guns and Mounts-Article 1, Mounts Under 18"
Special help from Kosaku Ariga (Jarek)
Page History

31 December 2007 - Benchmark
27 May 2012 - Updated to latest template
07 August 2012 - Added information on the Tone and Ibuki class mountings
11 September 2012 - Added mounting information
16 December 2013 - Updated photograph of Myôkô