Detail publikace
Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness
HOLUB, M. JANKOVÝCH, R. VETIŠKA, J. ŠRÁMEK, J. BLECHA, P. SMOLÍK, J. HEINRICH, P.
Český název
Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness
Anglický název
Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
Currently, various types of software compensations are applied to machine tools. Their aim is to increase the working accuracy of the tools. The improvement in working accuracy is then further assessed according to the increase in the dimensional and shape accuracy or the surface quality of the workpiece. This publication describes the effects of the volumetric accuracy of a machine tool on the working accuracy of a workpiece, where total roundness (RONt) is evaluated in multiple cuts. In the experiment, two test workpieces are manufactured on a three-axis milling machining centre. The first is made using a standard machine setup while the second with activated volumetric compensation. The LaserTRACER self-tracking laser interferometer is used to compensate for volumetric accuracy. In the second part, verification measurements are performed with a Ballbar, where roundness error is evaluated according to ISO 230-4. Then two test workpieces are machined, and, in the last part, measurement is performed on Talyrond 595S roundness measuring equipment. Finally, the results are analysed and the dependence between the volumetric accuracy, the circularity error of the machine and the working accuracy of the CNC machine tool is established, represented by the RONt of the workpiece. This paper presents new and unpublished relations between the volumetric accuracy of the machine tool and the RONt of the workpiece.
Český abstrakt
Currently, various types of software compensations are applied to machine tools. Their aim is to increase the working accuracy of the tools. The improvement in working accuracy is then further assessed according to the increase in the dimensional and shape accuracy or the surface quality of the workpiece. This publication describes the effects of the volumetric accuracy of a machine tool on the working accuracy of a workpiece, where total roundness (RONt) is evaluated in multiple cuts. In the experiment, two test workpieces are manufactured on a three-axis milling machining centre. The first is made using a standard machine setup while the second with activated volumetric compensation. The LaserTRACER self-tracking laser interferometer is used to compensate for volumetric accuracy. In the second part, verification measurements are performed with a Ballbar, where roundness error is evaluated according to ISO 230-4. Then two test workpieces are machined, and, in the last part, measurement is performed on Talyrond 595S roundness measuring equipment. Finally, the results are analysed and the dependence between the volumetric accuracy, the circularity error of the machine and the working accuracy of the CNC machine tool is established, represented by the RONt of the workpiece. This paper presents new and unpublished relations between the volumetric accuracy of the machine tool and the RONt of the workpiece.
Anglický abstrakt
Currently, various types of software compensations are applied to machine tools. Their aim is to increase the working accuracy of the tools. The improvement in working accuracy is then further assessed according to the increase in the dimensional and shape accuracy or the surface quality of the workpiece. This publication describes the effects of the volumetric accuracy of a machine tool on the working accuracy of a workpiece, where total roundness (RONt) is evaluated in multiple cuts. In the experiment, two test workpieces are manufactured on a three-axis milling machining centre. The first is made using a standard machine setup while the second with activated volumetric compensation. The LaserTRACER self-tracking laser interferometer is used to compensate for volumetric accuracy. In the second part, verification measurements are performed with a Ballbar, where roundness error is evaluated according to ISO 230-4. Then two test workpieces are machined, and, in the last part, measurement is performed on Talyrond 595S roundness measuring equipment. Finally, the results are analysed and the dependence between the volumetric accuracy, the circularity error of the machine and the working accuracy of the CNC machine tool is established, represented by the RONt of the workpiece. This paper presents new and unpublished relations between the volumetric accuracy of the machine tool and the RONt of the workpiece.
Klíčová slova česky
machine tool error; workpiece quality; machining accuracy; volumetric error; circularity; roundness
Klíčová slova anglicky
machine tool error; workpiece quality; machining accuracy; volumetric error; circularity; roundness
Vydáno
08.09.2020
Nakladatel
MDPI
Místo
Basel, Switzerland
ISSN
2076-3417
Ročník
10
Číslo
18
Strany od–do
1–18
Počet stran
18
BIBTEX
@article{BUT165322,
author="Michal {Holub} and Róbert {Jankových} and Jan {Vetiška} and Jan {Šrámek} and Petr {Blecha} and Jan {Smolík} and Petr {Heinrich},
title="Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness",
year="2020",
volume="10",
number="18",
month="September",
pages="1--18",
publisher="MDPI",
address="Basel, Switzerland",
issn="2076-3417"
}