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Japan Type99-2 |
Showing the details of the shells used(where known) | |
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Weapon Details |
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Type99-2 (Anti Aircraft) |
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| | History | |
| | Manufactured in Switzerland the Japanese Navy evaluated the Oerlikon in the 1930's and incorporated as a main AA gun. Two versions were manufactured with different barrel lengths L/70 and L/85 which gave muzzle velocities of 820m/sec L70 and 1050m/sec L/85. The L/70 could deliver shells at 450rpm and the L/85 at 900-1000 rpm. |
| | Manufactured | 1940 - Present |
| | Calibre | 20mm |
| | Length | L/85 |
20x110RB
(HE High Explosive)
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20mm 0.123Kg 830M/Sec | ≈0.018Kg explosive |
Maximum Range 1500 Mtr |
Range(Mtr) | 100 | 200 | 400 | 800 | 1200 | 1600 | 2000 | 2400 |
Flight Time(Secs) |
0.13 |
0.27 |
0.61 |
1.61 |
3.69 |
9.84 |
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Direct Fire |
Range(Mtr) | 100 | 200 | 400 | 800 | 1200 | 1600 | 2000 | 2400 |
Flight Time(Secs) |
0.13 |
0.27 |
0.61 |
1.61 |
3.69 |
9.84 |
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Hit Probability(%) |
98 |
98 |
98 |
81 |
22 |
1 |
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Blast/Fragmentation Effects |
Burst radius Infantry in open 99% kill | 1 mtr |
Burst radius Infantry in open 66% kill | 2 mtr |
Burst radius Infantry in open 33% kill | 7 mtr |
Armour Penetration inc roof at 1 mtr | 0 mm |
An explosion within 1 mtr of infantry in the open will cause 99% casualties - lethal. |
An explosion within 2 mtr of infantry in the open will cause > 66% casualties and could damage some AFV's. |
An explosion within 7 mtr of infantry in the open will cause 33% casualties. |
The blast effect of this shell exploding within 1 mtr of an armoured vehicle will not cause any significant armour damage. |
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Hit probability is based on a static 2 x 2.4 metre panel at 0 degrees(vertical) at the range specified.
The data that has been used to create these records has come from Wikipedia, The Lone Sentry, The Bundes Archive
and numerous books and websites that have provided the detailed information that has not been available anywhere else. The
information we use to calculate the penetration tables, flight times and the hit probability comes from the Gun Calibre,
the Shell Mass(Kg) and the muzzle velocity, plus range reductions to allow for gravity and wind resistance. This calculation
originally came from a pre-war Krupp calculation which has been modified, and seems to fit the actual test results.
© WWIITanks 1980-2024
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