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Britain Medium M4A3 76mm (Sherman IVA) |
| The Medium M4A3 76mm was designed in 1942 based on the existing fully tracked Sherman and was in use from 1944 to 1980. |
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| Specifications | Operational Date(s) | 1944 - 1980 | Quantity Produced | 3071 | Weight | 34 tonne | Crew | 5 | M.G's small | 3 | M.G's large(>10mm) | n/a | Length | 6.25 mtr | Width | 2.71 mtr | Height | 3.00 mtr | Engine Details/Performance | Max Road Speed | 26 mph | Max Cross Country Speed | 17 mph | Range Road | 130 miles | Range Cross Country | 52 miles | Fuel Type | Petrol | Fuel Capacity | 168 gal | Horse Power | 500 hp | Power/Weight | 14 hp/tonne | | General Information | The Medium M4A3 76mm was designed in 1942 based on the existing fully tracked Sherman and was in use from 1944 to 1980.
The vehicle was powered by Ford 'GAA' petrol powerplant producing 500 HP which could drive the vehicle on roads at up to 26 mph with a range of about 130 miles before refuelling. Its cross country performance was good providing a max speed of about 17 mph and a range of about 52 miles.
It was armed with 3 light machine guns which were 0.3 inch Browning Machine Gun M1919A4s. Its main armament consisted of a 76mm Gun M1 L/55 which could penetrate 138 mm of flat plate at 200 metres
The Sherman IVA M4A3 was a similar shape to the M4 but had a welded hull and was powered by a Ford GAA-III engine producing 500HP.
The cast turret carrying the gyro stabilised 75mm Gun M3 was the same as that of the Sherman I.
As with the earlier Sherman I the drive sprocket was at the front, the track went under 3 double bogie wheels onto the idler, then back over 3 return rollers. All of the 75mm armed version of this tank had glycol filled ammunition racks which were known as wet stowage they were designated as M4A3W | |
| Turret | Front | | 65mm | @ | 0° | (65mm) | Side | | 65mm | @ | 0° | (65mm) | Rear | | 65mm | @ | 0° | (65mm) | Top | | 25mm | @ | 90° | (25mm) | | Superstructure | Front | | 65mm | @ | 45° | (92mm) | Side | | 50mm | @ | 0° | (50mm) | Rear | | 38mm | @ | 0° | (38mm) | Top | | 19mm | @ | 90° | (19mm) | |
Hull | Front | | 40mm | @ | 45° | (57mm) | Side | | 40mm | @ | 0° | (40mm) | Rear | | 38mm | @ | 0° | (38mm) | Top | | 14mm | @ | 90° | (14mm) | | Armour (x)mm @ (y)° (Effective mm @ 0°) | Effective Armour - Maximum 92 mm - Minimum 14 mm |
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Weapon Details |
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0.3 inch Browning Machine Gun M1919A4 (Machine Gun) x 2 |
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| | Manufacturer | Browning |
| | Manufactured | 1919 - 1945 |
| | Calibre | 7.60mm |
| | Length | L/80 |
| | Rate of Fire | 480 rpm |
| | Number of Rounds | 6000 |
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Ammunition Details |
Name/Id |
Calibre Weight MVelocity |
Explosive Content |
.30-06 Springfield
(BALL Standard Small Arms)
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7.62mm 0.012Kg 820M/Sec | |
Range(Mtr) | 100 | 200 | 400 | 800 | 1200 | 1600 | 2000 | 2400 |
Flight Time(Secs) |
0.15 |
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Penetration(mm@30°) |
2 |
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Penetration(mm@0°) |
3 |
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Hit Probability(%) |
98 |
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Weapon Details |
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76mm Gun M1 L/55 |
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| | Calibre | 76.20mm |
| | Length | L/55 |
| | Number of Rounds | 72 |
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Ammunition Details |
Name/Id |
Calibre Weight MVelocity |
Explosive Content |
AP
(AP Armor Piercing)
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76.20mm 6.8Kg 792M/Sec | |
Quoted Penetration 88mm@1000m |
Range(Mtr) | 100 | 200 | 400 | 800 | 1200 | 1600 | 2000 | 2400 |
Flight Time(Secs) |
0.13 |
0.26 |
0.53 |
1.13 |
1.8 |
2.56 |
3.42 |
4.42 |
Penetration(mm@30°) |
129 |
119 |
109 |
96 |
84 |
72 |
62 |
52 |
Penetration(mm@0°) |
149 |
138 |
126 |
111 |
97 |
84 |
72 |
61 |
Hit Probability(%) |
98 |
98 |
98 |
96 |
77 |
44 |
25 |
15 |
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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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