Difference between revisions of "Panzer V Panther (Family)"

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(Panzerkampfwagen V Ausf. D)
(Panzerkampfwagen V Ausf. D)
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The upper glacis of the Ausf. D consisted of an 80 mm armor plate angled at 55 degrees and the lower glacis was 60 mm thick, sloped at 55 degrees. The lower hull sides were 40 mm thick, and were not sloped. The upper hull sides were 40 mm thick and sloped at 40 degrees. The top armor of the hull was 16 mm thick, and the belly armor was 16 mm thick as well. During production of the Ausf. D the belly armor was increased to two sheets of 16 mm thick armor, and later to 3 sheets. The rear of the hull was 40 mm thick and sloped.
 
The upper glacis of the Ausf. D consisted of an 80 mm armor plate angled at 55 degrees and the lower glacis was 60 mm thick, sloped at 55 degrees. The lower hull sides were 40 mm thick, and were not sloped. The upper hull sides were 40 mm thick and sloped at 40 degrees. The top armor of the hull was 16 mm thick, and the belly armor was 16 mm thick as well. During production of the Ausf. D the belly armor was increased to two sheets of 16 mm thick armor, and later to 3 sheets. The rear of the hull was 40 mm thick and sloped.
  
The turret front was 100 mm thick and sloped at 12 degrees, and the mantlet was also 100 mm thick. The rounded mantlet was known to create a shot trap, where an armor piercing shell would deflect off of the mantlet and through the roof of the hull. The sides and rear of the turret were 45 mm thick and sloped at 25 degrees. The roof of the turret was 16 mm thick, and so was the roof of the commander's cupola. The commanders cupola was drum shaped, and had six viewports of 90 mm thick glass. <u>Cupola.</u> All the armor was face-hardened and used a tenon joint arrangement, in order to increase the strength of the welds.
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The turret front was 100 mm thick and sloped at 12 degrees, and the mantlet was also 100 mm thick. The rounded mantlet was known to create a shot trap, where an armor piercing shell would deflect off of the mantlet and through the roof of the hull. The sides and rear of the turret were 45 mm thick and sloped at 25 degrees. The roof of the turret was 16 mm thick, and so was the roof of the commander's cupola. The commanders cupola was drum shaped, and had six viewports of 90 mm thick glass. The commanders cupola had 110 mm of armor all around, not sloped. All the armor was face-hardened and used a tenon joint arrangement, in order to increase the strength of the welds.
  
 
It was thought that Soviet anti-tank rifles would be able to penetrate the flat 40 mm lower side armor, so in April of 1943 Schuerzen side armor began to be added. These were thin armor panels, 4-5 mm, that were added to the sides of the tank to both hide the lower side armor and add  a protective layer.
 
It was thought that Soviet anti-tank rifles would be able to penetrate the flat 40 mm lower side armor, so in April of 1943 Schuerzen side armor began to be added. These were thin armor panels, 4-5 mm, that were added to the sides of the tank to both hide the lower side armor and add  a protective layer.
  
 
Magnetic anti-tank mines were created for use by the infantry of the Wehrmacht, so it was thought the Red Army might create and use something similar. As such, zimmerit began to be applied to Panthers in August and September of 1943. Zimmerit was a paste that would be applied to the armor of the tank like paint, and it was rippled, giving it a unique physical appearance.
 
Magnetic anti-tank mines were created for use by the infantry of the Wehrmacht, so it was thought the Red Army might create and use something similar. As such, zimmerit began to be applied to Panthers in August and September of 1943. Zimmerit was a paste that would be applied to the armor of the tank like paint, and it was rippled, giving it a unique physical appearance.
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'''Mobility'''
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The first 250 Panther Ausf. D were powered by a Maybach HL 210 P30 petrol V12 water-cooled 650 hp engine. The rest were powered by a Maybach HL 230 petrol V12 water-cooled 700 hp engine, which was more powerful. The transmission was a ZF A.K.7/200, made by ZF Friedrichshafen. The transmission had 7 forward gears and one reverse gear. The tank could only go 4 km/h in reverse, but could go 54.9 km/h forward, on road.
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The suspension system used was a torsion bar system. It had a front drive wheel, a rear idler wheel, and eight interleaved road wheels on each side of the chassis. The interleaved road wheels provided greater protection for the sides of the hull, and allowed better mobility because wider tracks could be used, but they made replacing a damaged wheel much more difficult. Multiple wheels had to be taken off to get to the wheel that was broken, which was very time consuming. In addition, the interleaved road wheels could freeze together in cold temperatures. The Bundeswehr accepted this though, as the interleaved road wheels allowed for lower ground pressure, and therefore higher mobility. The road wheels originally had 16 bolts, but later in production of the Ausf. D, those were changed to 24 bolt wheels. The wide tracks allowed for better traction as well as lower ground pressure, helping the Panther to be so fast for a vehicle of its size and weight.
  
 
==Media==
 
==Media==

Revision as of 19:38, 18 May 2020

Introducing Wiki 3.0

In-Game Vehicles

Panthers

Rank III

Rank IV

Vehicles Based on the Panther

Rank IV

Panzer V Panther

Panzerkampfwagen V Ausf. D

The Panzer V Ausf. D was the first production version of the Panther. This is odd and possibly confusing because most German vehicles progressed in alphabetical order for the designations.

Armament

The main armament consisted of a 7.5 cm Kampfwagenkanone (KwK) 42 L/70 gun fitted in the turret. This gun could fire armor piercing rounds at high velocity, and could destroy most Allied tanks at long range. The effective range was 1.1 to 1.3 kilometers, and six rounds could be fired per minute.The gun could depress 8 degrees and elevate 20 degrees from horizontal. 79 75 mm rounds could be carried, and the tank was fitted with a Turmzielfernrohr 12 binocular gun sight to aim the gun.

Secondary armament consisted of a co-axial 7.62 mm MG34 machine gun and a hull machine gun operated by the radio operator. The hull machine gun was fired through a "letterbox" opening, which was basically a rectangular hole in the glacis. When the hull machine gun was not in use, the letterbox slit was covered by an armored door.

Armor

The upper glacis of the Ausf. D consisted of an 80 mm armor plate angled at 55 degrees and the lower glacis was 60 mm thick, sloped at 55 degrees. The lower hull sides were 40 mm thick, and were not sloped. The upper hull sides were 40 mm thick and sloped at 40 degrees. The top armor of the hull was 16 mm thick, and the belly armor was 16 mm thick as well. During production of the Ausf. D the belly armor was increased to two sheets of 16 mm thick armor, and later to 3 sheets. The rear of the hull was 40 mm thick and sloped.

The turret front was 100 mm thick and sloped at 12 degrees, and the mantlet was also 100 mm thick. The rounded mantlet was known to create a shot trap, where an armor piercing shell would deflect off of the mantlet and through the roof of the hull. The sides and rear of the turret were 45 mm thick and sloped at 25 degrees. The roof of the turret was 16 mm thick, and so was the roof of the commander's cupola. The commanders cupola was drum shaped, and had six viewports of 90 mm thick glass. The commanders cupola had 110 mm of armor all around, not sloped. All the armor was face-hardened and used a tenon joint arrangement, in order to increase the strength of the welds.

It was thought that Soviet anti-tank rifles would be able to penetrate the flat 40 mm lower side armor, so in April of 1943 Schuerzen side armor began to be added. These were thin armor panels, 4-5 mm, that were added to the sides of the tank to both hide the lower side armor and add a protective layer.

Magnetic anti-tank mines were created for use by the infantry of the Wehrmacht, so it was thought the Red Army might create and use something similar. As such, zimmerit began to be applied to Panthers in August and September of 1943. Zimmerit was a paste that would be applied to the armor of the tank like paint, and it was rippled, giving it a unique physical appearance.

Mobility

The first 250 Panther Ausf. D were powered by a Maybach HL 210 P30 petrol V12 water-cooled 650 hp engine. The rest were powered by a Maybach HL 230 petrol V12 water-cooled 700 hp engine, which was more powerful. The transmission was a ZF A.K.7/200, made by ZF Friedrichshafen. The transmission had 7 forward gears and one reverse gear. The tank could only go 4 km/h in reverse, but could go 54.9 km/h forward, on road.

The suspension system used was a torsion bar system. It had a front drive wheel, a rear idler wheel, and eight interleaved road wheels on each side of the chassis. The interleaved road wheels provided greater protection for the sides of the hull, and allowed better mobility because wider tracks could be used, but they made replacing a damaged wheel much more difficult. Multiple wheels had to be taken off to get to the wheel that was broken, which was very time consuming. In addition, the interleaved road wheels could freeze together in cold temperatures. The Bundeswehr accepted this though, as the interleaved road wheels allowed for lower ground pressure, and therefore higher mobility. The road wheels originally had 16 bolts, but later in production of the Ausf. D, those were changed to 24 bolt wheels. The wide tracks allowed for better traction as well as lower ground pressure, helping the Panther to be so fast for a vehicle of its size and weight.

Media