Monday 23 June 2014

Lever Forces

Driving a tank is not like driving a car. In order to turn, you do not simply turn a wheel, but must wrestle with levers controlling an engine with many hundreds of horsepowers, dragging a beast that weighs tens of tons. That is not an easy task. CAMD RF 38-11355-2884 (from litl-bro's repository) covers the forces involved in driving a T-34-85 and an IS-3.

The span the levers travel was divided into 6 equal parts. Forces for the first 5 include only the force to move the lever, but forces for the last part include the force to bring the friction clutch into action and stop the tank completely.

The first vehicle that is tested is a T-34-85 #381105 from factory #112 (Krasonye Sormovo). This tank travelled 1010 km before this test. 

Lever position
Force in kg
Difference in kg
Right lever
Left lever
1
21.5
24.0
2.5
2
26.0
30.0
4.0
3
28.5
33.0
4.5
4
34.0
37.0
3.0
5
33.0
37.0
4.0
6
29.0
34.0
5.0

Now, for turning the tank in place.

Gear
Force in kg
Difference in kg
Turn radius
Right lever
Left lever
1
37
34
3
In place (180 degrees)
2
40
38
2
Same
3
40
39
1
8 meters (extrapolated from 90 degree turn)
Next is another T-34-85, #872024, from factory #174 (Voroshilov factory). This tank travelled 1002 km before these trials.

Lever position
Force in kg
Difference in kg
Right lever
Left lever
1
26.0
24.5
1.5
2
29.0
30.0
1.0
3
33.0
32.0
1.0
4
37.0
37.0
0
5
37.0
37.0
0
6
35.0
35.0
0

Gear
Force in kg
Difference in kg
Turn radius
Right lever
Left lever
1
42
39
3
In place (180 degrees)
2
46
44
2
Same
3
46
45
1
8 meters (extrapolated from 90 degree turn)

Next is a T-34-85 #664479 from factory #183 (HPZ). The tank was basically new, just out of factory trials, and travelled 100 km. 

Lever position
Force in kg
Difference in kg
Right lever
Left lever
1
23.0
23.5
0.5
2
28.5
27.0
1.5
3
30.0
29.0
1.0
4
35.0
35.5
0.5
5
37.5
37.0
0.5
6
36.0
34.5
1.5

Gear
Force in kg
Difference in kg
Turn radius
Right lever
Left lever
1
38
36
2
In place (180 degrees)
2
44
41
3
Same
3
44.5
44
1.5
8 meters (extrapolated from 90 degree turn)

As you can see, the new tank does a little bit better. 

Now, for the IS-3. The tank travelled 500 km before trials. The lever range was split into only three sections:
  1. From the initial position to first position (the planetary mechanism friction clutch is off, the small brake belt is taut).
  2. First position to second (brake belt of the stopper drum is taut).
  3. Brake belt of the stopper is at maximum tautness. 
Lever position
Force in kg
Difference in kg
Right lever
Left lever
1
32
30
2
2
16
16
0
3
30.0
30
0
The IS-3 is heavier, but more modern. As a result, driving it does not take more force than driving a T-34, and sometimes, much less force.

Lever position
Force in kg
Difference in kg
Right lever
Left lever
1
23.0
23.5
0.5
2
28.5
27.0
1.5
3
30.0
29.0
1.0
4
35.0
35.5
0.5
5
37.5
37.0
0.5
6
36.0
34.5
1.5
Now, for turning around:

Gear
Forces to move the lever from the initial position
to the first (smooth turn)
Turn radius in meters
Forces to move the lever from the first position
to the full position (turn in place)
Right lever
Left lever
Right lever
Left lever
1
30
29
14
25
25
2
29
27
14
22-35
22-35
3
28
28
15
20-40
20-40
4
26
26
15
18-40
18-40
5
24
24
Maneuver not performed
6
20
23
7
16
20

CAMD RF 38-11355-2890 contains similar measurements for a much larger set of tanks. The conditions for turning around are different: instead of a half-turn or a quarter-turn, tanks made multiple turns. The first turn did not count, and only the subsequent turns (where the mud that was removed by the first turn did not affect the trial) were recorded.

The following tanks underwent trials:
  • T26E3 (Pershing), having travelled 1030 km
  • M4A2(76) (Sherman), 4000 km
  • M24 (Chaffee), 1200 km
  • Jagdtiger, 260 km (this specific one)
  • Panther, 648 km
  • Tiger H, 900 km
  • Comet, 1100 km
  • T-34-85, 1010 km
  • T-44, 570 km
First, the tanks that can neutral steer:

Name
Right lever forces
Left lever forces
Difference
Note
Panther
5
5
0
Tank turned easily
Jagdtiger
5
5
0
SPG turned easily
Comet
20
21
1
Tank turned after three attempts

Then all of them in first gear.

Name
Radius (meters)
Right lever force
Left lever force
Difference
T26E3
9.5
35
34
1
M4A2(76)
10
30
30
0
M24
7
12
11
1
Panther
6
6
6
0
Jagdtiger
7
4.5
4.5
0
Comet
3
16
18
2
T-34-85
In place
32
34
2
T-44
In place
13
12
1
IS-3
In place
41
39
2
Tiger H
6
13
14
1

The next table's turns were also done in first gear, but for a radius of 10 meters (the worst radius in the previous table).


Name

Right lever force

Left lever force

Difference

T26E3

34

32

2

M4A2(76)

30

30

0

M24

13

14

1

Panther

5

5

0

Jagdtiger

5

5

0

Comet

14

15

1

T-34-85

30

30

0

T-44

11

10

1

IS-3

32

32

0

Tiger H

10

12

2

Let's try a slightly easier task, turning in first gear with a 15 meter radius.


Name

Right lever force

Left lever force

Difference

T26E3

22

25

2

M4A2(76)

22

23

1

M24

9

9

0

Panther

5

5

0

Jagdtiger

5

5

0

Comet

12

12

0

T-34-85

27

29

2

T-44

10

10

0

IS-3

30

31

1

Tiger H

10

12

2

Minimum radius again, this time in second gear:


Name

Right lever force

Left lever force

Difference

T26E3

37

39

2

M4A2(76)

34

35

1

M24

16

17

1

Panther

12

15

3

Jagdtiger

5

5

0

Comet

19

21

2

T-34-85

35

36

1

T-44

11

12

1

IS-3

32

33

1

"Conclusions
  1. The most effort is required to turn the IS-3 (30-41 kg), T26E3 (23-39 kg), T-34-85 (27-36 kg) and M4A2-76 (22-35 kg).
  2. The least effort is required to turn German tanks T-V (5-15 kg), T-VI (10-14 kg), English "Comet I" tank (12-20 kg), German Jagdtiger SPG (5-14 kg) and domestic T-44 tank (10-13 kg).
    The T-V, T-VI, Jagdtiger, and Comet require little effort due to a hydraulic servo and a special turning mechanism design (planetary mechanisms with additional power input from the engine).
    The T-44 requires little effort due to altered input levers and a servo spring.
  3. The M4A2-76 requires less effort than the T26E3, despite similar design. This is due to the tank's smaller size and longer lever lengths.
  4. The T-V, T-VI, Jagdtiger and Comet tanks can turn in place when the gearbox is set to the neutral gear due to a special planetary turning mechanism with additional power input from the engine. 
  5. Turning domestic T-34-85 and IS-3 tanks, as well as American T-26 and M4A2-76 tanks requires great effort, and tires out drivers during long marches."
For those of you that think 35-40 kg is high, the effort required to turn a Pz38(t) reached 60 kilograms, according to Aleksei Kalinin's Panzerkampfwagen 38(t), Tactical Press, Moscow, 2013, page 125.

1 comment:

  1. Just a heads up, 15 meter radius table has some odd values going on in regards to the JagdTiger. One of the three is incorrect!

    ReplyDelete