Theoretical Study of Tool Holder Self-excited Oscillation in Turning Processes Using a Nonlinear Model
Datum postavljanja dokumenta
2018Autori
Pejović, Branko
Kovač, Pavel
Pucovsky, Vladimir
Todić, Aleksandar
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
In this paper, by observing a system which is composed from a workpiece and a tool holder, a dynamic and a
mathematical nonlinear model is acquired. These models can be used as a theoretical foundation for research of
self-excited oscillations, which are the object of research in this paper. All relevant oscillator factors are taken into
consideration including a frictional force between flank surface and a machined new surface, which is dependent
on relative system speed. For obtaining more reliable results, the characteristic friction function is expanded
into the Taylor series with an arbitrary number of members regarding required accuracy. The main nonlinear
differential equation of the system is solved by the method of slowly varying coefficients, which is elaborated on
in detail here. One assumption is made, which states that the system has a weak nonlinearity, and respectively
small damping factor. After obtaining the law of motion with relation to a larger number of influential factors,
the amplitude of self-excited oscillation is determined in two different ways. Previously, this is conducted for two
characteristic phases—for stationary and nonstationary modes. At the end of the paper, an analytic determination
and occurrence condition of self-excited oscillations is established. This is an important factor for practical use.
This is also the stability condition. The starting point for this determination was a type of experimental friction
function. Derived relationships allow detailed quantitative analysis of certain parameters’ influence, determination
of stability, and give a reliable description of the process, which is not the case with the existing linear model. After
the theoretical analysis of obtained results, a possibility for application of the suggested method in the machine tool
area is presented. The derived general model based on the method of slowly varying coefficients can be directly
applied in all cases where nonlinearity is not too large, which is usually the case in the field of machine tools. The
greater damping factor causes a smaller amplitude of self-excited steady oscillation. Characteristics of the selfexcited oscillations in the described model mostly depend on the character of the friction force. Angular frequency
in mentioned nonlinear oscillations depends on the amplitude and initial conditions of movement, which is not the
case in free oscillations
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