Publication detail

Simulation Assessment of Suspension of Tool Vibrations during Machining

BŘEZINA, T. BŘEZINA, L. MAREK, J. HADAŠ, Z. VETIŠKA, J.

Original Title

Simulation Assessment of Suspension of Tool Vibrations during Machining

English Title

Simulation Assessment of Suspension of Tool Vibrations during Machining

Type

conference paper

Language

en

Original Abstract

Knowledge of an impact of a linked mass on a behavior of machine tools is a useful guide for their designers. This paper demonstrates a general approach which leads to a set of locally optimal parameters of mass, whose connection to the machine consequently suppresses vibrations during machining. The approach is based on simulation modeling of mechatronic systems with flexible bodies. Obtained parameters can be structurally interpreted e.g. as damper or absorber for the needs of the design already in preproduction stages.

English abstract

Knowledge of an impact of a linked mass on a behavior of machine tools is a useful guide for their designers. This paper demonstrates a general approach which leads to a set of locally optimal parameters of mass, whose connection to the machine consequently suppresses vibrations during machining. The approach is based on simulation modeling of mechatronic systems with flexible bodies. Obtained parameters can be structurally interpreted e.g. as damper or absorber for the needs of the design already in preproduction stages.

Keywords

Simulation, Maniche Tool, Vibrations, Mechatronics

RIV year

2013

Released

07.10.2013

Publisher

Springer

ISBN

978-3-319-02294-9

Book

Mechatronics 2013 Recent Technological and Scientific Advances

Edition

1

Pages from

273

Pages to

282

Pages count

8

Documents

BibTex


@inproceedings{BUT102448,
  author="Tomáš {Březina} and Lukáš {Březina} and Jiří {Marek} and Zdeněk {Hadaš} and Jan {Vetiška}",
  title="Simulation Assessment of Suspension of Tool Vibrations during Machining",
  annote="Knowledge of an impact of a linked mass on a behavior of machine tools is a useful guide for their designers. This paper demonstrates a general approach which leads to a set of locally optimal parameters of mass, whose connection to the machine consequently suppresses vibrations during machining. The approach is based on simulation modeling of mechatronic systems with flexible bodies. Obtained parameters can be structurally interpreted e.g. as damper or absorber for the needs of the design already in preproduction stages.",
  address="Springer",
  booktitle="Mechatronics 2013 Recent Technological and Scientific Advances",
  chapter="102448",
  doi="10.1007/978-3-319-02294-9_35",
  edition="1",
  howpublished="print",
  institution="Springer",
  year="2013",
  month="october",
  pages="273--282",
  publisher="Springer",
  type="conference paper"
}