Virtual Model of Tool Path for Milling Machine at Classical Design Base

Ján Semjon; Peter Demeč; Jozef Svetlík

doi:10.4028/www.scientific.net/AMM.282.235

Paper Titles

Parametric Programming of CNC Machine Tools
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Modelling and Systemic Analysis of Models of Dynamic Systems of Shaft Machining
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Mathematical Model of the Hole Drilling Process and Typical Automated Process of Designing Hole Drilling Operations
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Manufacturing Systems Suitable for Globalized Market
p.230

Virtual Model of Tool Path for Milling Machine at Classical Design Base
p.235

Adaptation of Control System for 3D Printing Device with the Use of Hot Gas Powder Sintering
p.242

The Procedure Designing Production Systems Based on CA Methods
p.246

Flexible Production Cell with Information Systems
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Mechanism of Randomness in Vibration Signals of Machinery
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 282Virtual Model of Tool Path for Milling Machine at...

Virtual Model of Tool Path for Milling Machine at Classical Design Base

Abstract:

This article focuses on issue of proposal ideal tool paths for machine tools. Model of machine consists from 6 basic knots where milling machine disposes spindle placed in the horizontal direction are. Based on mathematical analysis we can detect the movement of machine axes for uncertainty investigated. The calculated values can be compared with machine model developed in Computer - Aided Design. Defining the shape of workpiece as well as assigning an appropriate instrument can be determined by true value of precision workpiece. After substituting the values of specific dimensions we get the final position of vectors point for contact in tool coordinate systems at individual model solids.

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Periodical:

Applied Mechanics and Materials (Volume 282)

Pages:

235-241

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.282.235

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Online since:

January 2013

Authors:

Ján Semjon, Peter Demeč, Jozef Svetlík

Keywords:

Accuracy, Machine, Tool, Virtual Model

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References

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