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Energy efficiency evaluation method for machine tools

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Standard

Energy efficiency evaluation method for machine tools. / Ikkala, Kimmo; Lanz, Minna; Kiviö, Jouko; Coatanéa, Eric.

Flexible Automation and Intelligent Manufacturing 2015. The Choir Press, 2015. s. 58-65.

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Harvard

Ikkala, K, Lanz, M, Kiviö, J & Coatanéa, E 2015, Energy efficiency evaluation method for machine tools. julkaisussa Flexible Automation and Intelligent Manufacturing 2015. The Choir Press, Sivut 58-65, INTERNATIONAL CONFERENCE ON FLEXIBLE AUTOMATION AND INTELLIGENT MANUFACTURING, 1/01/00.

APA

Ikkala, K., Lanz, M., Kiviö, J., & Coatanéa, E. (2015). Energy efficiency evaluation method for machine tools. teoksessa Flexible Automation and Intelligent Manufacturing 2015 (Sivut 58-65). The Choir Press.

Vancouver

Ikkala K, Lanz M, Kiviö J, Coatanéa E. Energy efficiency evaluation method for machine tools. julkaisussa Flexible Automation and Intelligent Manufacturing 2015. The Choir Press. 2015. s. 58-65

Author

Ikkala, Kimmo ; Lanz, Minna ; Kiviö, Jouko ; Coatanéa, Eric. / Energy efficiency evaluation method for machine tools. Flexible Automation and Intelligent Manufacturing 2015. The Choir Press, 2015. Sivut 58-65

Bibtex - Lataa

@inproceedings{dfc59912bacf49ba94392d4398f146aa,
title = "Energy efficiency evaluation method for machine tools",
abstract = "The energy efficiency of machine tools is typically poor and there is potential to increase it. It is possible to effect the energy consumption of a cutting process by selecting suitable process parameters and tools. When the power usage of the machine tool is measured by cutting experiments, the energy efficiency of the machine tool effect of the results and the cutting process has an influence. This paper presents the impact of several cutting parameters affecting the cutting power, the machine tool electric power usage and the efficiency. Furthermore, the possibilities to adjust the cutting power by changing the process parameters is used in developing a shop floor level method for evaluating and comparing performance of different machine tools.",
author = "Kimmo Ikkala and Minna Lanz and Jouko Kivi{\"o} and Eric Coatan{\'e}a",
note = "INT=MEI, {"}Coatan{\'e}a, Eric{"}",
year = "2015",
language = "English",
isbn = "9781910864005",
pages = "58--65",
booktitle = "Flexible Automation and Intelligent Manufacturing 2015",
publisher = "The Choir Press",

}

RIS (suitable for import to EndNote) - Lataa

TY - GEN

T1 - Energy efficiency evaluation method for machine tools

AU - Ikkala, Kimmo

AU - Lanz, Minna

AU - Kiviö, Jouko

AU - Coatanéa, Eric

N1 - INT=MEI, "Coatanéa, Eric"

PY - 2015

Y1 - 2015

N2 - The energy efficiency of machine tools is typically poor and there is potential to increase it. It is possible to effect the energy consumption of a cutting process by selecting suitable process parameters and tools. When the power usage of the machine tool is measured by cutting experiments, the energy efficiency of the machine tool effect of the results and the cutting process has an influence. This paper presents the impact of several cutting parameters affecting the cutting power, the machine tool electric power usage and the efficiency. Furthermore, the possibilities to adjust the cutting power by changing the process parameters is used in developing a shop floor level method for evaluating and comparing performance of different machine tools.

AB - The energy efficiency of machine tools is typically poor and there is potential to increase it. It is possible to effect the energy consumption of a cutting process by selecting suitable process parameters and tools. When the power usage of the machine tool is measured by cutting experiments, the energy efficiency of the machine tool effect of the results and the cutting process has an influence. This paper presents the impact of several cutting parameters affecting the cutting power, the machine tool electric power usage and the efficiency. Furthermore, the possibilities to adjust the cutting power by changing the process parameters is used in developing a shop floor level method for evaluating and comparing performance of different machine tools.

M3 - Conference contribution

SN - 9781910864005

SP - 58

EP - 65

BT - Flexible Automation and Intelligent Manufacturing 2015

PB - The Choir Press

ER -