Figure-2. Physical model that demonstrates the initial angular displacement of a stationary

Mechanical Engineering
233 
In fact, we take the sliding friction force as its average value over the period of auto-
vibrations. This means that the longer the contact is stationary, the greater the sliding friction 
force [6]. 
The following events occur when the rate of mutual displacement of objects increases: 
- the duration of the stationary contact is reduced; 
- the temperature of the contact rises and the contact surfaces come into contact, which, 
under certain conditions, can cause the actual contact surface to enlarge or shrink. 
Sliding of the wheel along the rails can be complete and inaccurate. In the case of 
improper sliding, in one part of the contact spot there may be a rolling between the wheel and the 
rails, and in another - slipping between their contact fibers. In nonlinear slip, adhesion forces 
develop similar to nonlinear (or boundary full) frictional forces in the quiescent state. Slippage in 
this case is the result of the initial displacements of the objects in contact with each other, which 
occur continuously and then disappear, held by the frictional forces at rest. 
When the wheel slides completely along the rail, this sliding process affects all the fibers 
of the contact spots. 
Especially misaligned slippage requires special study. Lorentz's theory is more in line 
with modern theories about the nature of dry friction than theories that explain the course of this 
process [6]. 
According to this theory, the length of the rolling zone is assumed to be equal to the 
width of one conditional fiber, in the flat scheme (Fig. 1) this area is represented by a single 
point. The coefficient of friction in the entire contact spot zone maintains a constant value of a. 
Its size is from 0 to

0

, the external torque, which varies up to the coefficient of friction at rest 
depending on 
к
М
.
The specific shear load on the contact spot element is equal to the product of 
q
the specific normal load and the coefficient of friction:
q




(1) 
Thus, according to this theory, the flat plot of the specific experimental load remains 
elliptical in all modes [7]. 
According to experimental data, the rate of sliding motion in the study of the dynamic 
processes of crawling and sliding from the description of the coupling 
v
and the vertical load 
falling from the wheel to the rail 
Р
the coefficient of adhesion of the wheel to the rails at smaller 
variations 

and the ratio between the slip velocity v is considered sufficient by the condition 
itself that it is determined by a single functional relationship.
The maximum value of the coupling coefficient that remains constant at small variations 
in the sliding speed is called the potential value of the coupling coefficient [8, 10], in this case 
.
.
0
уст
м ак



.
Today, it can be said that under other equal conditions, the value of ψ
0
decreases slightly 
with increasing velocity v, and this can be explained by a decrease in the duration of the 
stationary contact [10]. 

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