Static & Dynamic Characteristics Analysis of VMC 500 throught Location and Configuration Column Joint Variation with Machining Force Consideration
One factor that determines the quality of products produced by machine tools is accuracy. The accuracy of the product is influenced by the static and dynamic stiffness of machine tools. Increasing the stiffness can be done by reducing the number of connections. Because of its casting limitation,...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/46003 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One factor that determines the quality of products produced by machine tools is
accuracy. The accuracy of the product is influenced by the static and dynamic stiffness of
machine tools. Increasing the stiffness can be done by reducing the number of connections.
Because of its casting limitation, separating the column into two parts and then joining the
connection must be done. However, the presence of this connection will affect the static and
dynamic characteristics of a machine tool. Therefore, compatibility analysis of static and
dynamic characteristics with simulation in ANSYS software needs to be done to get the
design with the most optimal rigidity.
Static analysis is carried out with loads obtained from the machine components
themselves and the cutting force and then varies the height of the connection between the
upper and lower columns and the orientation of the connections. The force in static analysis
is a static cutting force which is estimated to be obtained by calculations with certain
parameters. While the force in the dynamic analysis is a sinusoidal force with the frequency
value adjusting to the spindle rotational speed value. When the frequency of operation is
equal to the natural frequency of the VMC 500 machine, the phenomenon of resonance that
will cause vibrations and additional changes will occur, so it must be avoided in order not
to damage the accuracy and the precision of the product.
The simulation results from the static analysis will form the maximum deformation
at the cutting point of the tool while for dynamic analysis is a natural frequency, mode shapes
and dynamic compliance graph at the cutting point of the tool. From each analysis, the
connection model that has the best static and dynamic stiffness for location variation and
configuration variation will be obtained.
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