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Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process. / Sandmann, Steffan; Quayle, Stephen.
2007. Paper presented at 8th International Conference on Rapid Prototyping, Tokyo, Japan.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Sandmann, S & Quayle, S 2007, 'Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process', Paper presented at 8th International Conference on Rapid Prototyping, Tokyo, Japan, 12/06/00 - 13/06/00.

APA

Sandmann, S., & Quayle, S. (2007). Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process. Paper presented at 8th International Conference on Rapid Prototyping, Tokyo, Japan.

Vancouver

Sandmann S, Quayle S. Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process. 2007. Paper presented at 8th International Conference on Rapid Prototyping, Tokyo, Japan.

Author

Sandmann, Steffan ; Quayle, Stephen. / Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process. Paper presented at 8th International Conference on Rapid Prototyping, Tokyo, Japan.

Bibtex

@conference{d8fadb070db24bd79237f39117c62568,
title = "Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process",
abstract = "Project partners from industry and research are developing a laser structuring machine at the Fraunhofer IPT Aachen within the framework of the BMBF (Federal Ministry of Education and Research) aided InnoNet project “FlexOStruk”. The purpose of the project is the development of a self contained process chain to fine structure free form surfaces. The automotive and the consumer industry have a special interest for the production of 3D-workpiece surfaces with fine structures. Kinematical and geometrical influences play a decisive part in the achievement of the necessary precision of producing the structures. The goal of this paper is to examine the geometrical and the kinematical deviations of the Tool Centre Point (TCP) from the target position to optimise the laser structuring process. A precision in the range of a few micrometers is necessary for the production of the final structures. ",
author = "Steffan Sandmann and Stephen Quayle",
year = "2007",
month = jun,
day = "15",
language = "English",
note = "8th International Conference on Rapid Prototyping ; Conference date: 12-06-2000 Through 13-06-2000",

}

RIS

TY - CONF

T1 - Characterisation of the geometrical and kinematical influences of a 5-axis machining cell on the quality of the laser structuring process

AU - Sandmann, Steffan

AU - Quayle, Stephen

PY - 2007/6/15

Y1 - 2007/6/15

N2 - Project partners from industry and research are developing a laser structuring machine at the Fraunhofer IPT Aachen within the framework of the BMBF (Federal Ministry of Education and Research) aided InnoNet project “FlexOStruk”. The purpose of the project is the development of a self contained process chain to fine structure free form surfaces. The automotive and the consumer industry have a special interest for the production of 3D-workpiece surfaces with fine structures. Kinematical and geometrical influences play a decisive part in the achievement of the necessary precision of producing the structures. The goal of this paper is to examine the geometrical and the kinematical deviations of the Tool Centre Point (TCP) from the target position to optimise the laser structuring process. A precision in the range of a few micrometers is necessary for the production of the final structures.

AB - Project partners from industry and research are developing a laser structuring machine at the Fraunhofer IPT Aachen within the framework of the BMBF (Federal Ministry of Education and Research) aided InnoNet project “FlexOStruk”. The purpose of the project is the development of a self contained process chain to fine structure free form surfaces. The automotive and the consumer industry have a special interest for the production of 3D-workpiece surfaces with fine structures. Kinematical and geometrical influences play a decisive part in the achievement of the necessary precision of producing the structures. The goal of this paper is to examine the geometrical and the kinematical deviations of the Tool Centre Point (TCP) from the target position to optimise the laser structuring process. A precision in the range of a few micrometers is necessary for the production of the final structures.

M3 - Conference paper

T2 - 8th International Conference on Rapid Prototyping

Y2 - 12 June 2000 through 13 June 2000

ER -