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Modal Testing and Analysis of Z-Axis Supporting Plate for High–Speed PCB NC Drilling Machine

A constraint condition finite element analysis mode of the high speed PCB drilling machine Z-axis bottom plate was established on the platform of Abaqus. And then an optimal structural mode of a Z-axis supporting plate was obtained by means of performing constraint modal analysis and dynamic analysi... Full description

Journal Title: Applied Mechanics and Materials 2014-01-16, Vol.496-500 (Frontiers of Manufacturing and Design Science IV), p.1016-1019
Main Author: He, Ling
Other Authors: Lei, Ya Li , Wu, Heng Yu , Huang, Guo
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Zurich: Trans Tech Publications Ltd
ID: ISSN: 1660-9336
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title: Modal Testing and Analysis of Z-Axis Supporting Plate for High–Speed PCB NC Drilling Machine
format: Article
creator:
  • He, Ling
  • Lei, Ya Li
  • Wu, Heng Yu
  • Huang, Guo
subjects:
  • Computer programs
  • Computer simulation
  • Dynamical systems
  • Dynamics
  • Finite element method
  • Mathematical analysis
  • Optimization
  • Plates (structural members)
ispartof: Applied Mechanics and Materials, 2014-01-16, Vol.496-500 (Frontiers of Manufacturing and Design Science IV), p.1016-1019
description: A constraint condition finite element analysis mode of the high speed PCB drilling machine Z-axis bottom plate was established on the platform of Abaqus. And then an optimal structural mode of a Z-axis supporting plate was obtained by means of performing constraint modal analysis and dynamic analysis optimization on the structure of the Z-axis supporting plate. modal tests and analyses were performed on the Z-axis plate before and after the optimization with the application of an LMS vibration/dynamic signal acquisition and analysis system. The experimental results were shown that the tested Z-axis plate dynamic characteristics were basically consistent with the obtained Z-axis supporting plate mode from simulation analyses using the finite element software Abaqus. It was proved that using the finite element software was feasible for optimizing the Z-axis supporting plate structure.
language: eng
source:
identifier: ISSN: 1660-9336
fulltext: no_fulltext
issn:
  • 1660-9336
  • 1662-7482
  • 1662-7482
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descriptionA constraint condition finite element analysis mode of the high speed PCB drilling machine Z-axis bottom plate was established on the platform of Abaqus. And then an optimal structural mode of a Z-axis supporting plate was obtained by means of performing constraint modal analysis and dynamic analysis optimization on the structure of the Z-axis supporting plate. modal tests and analyses were performed on the Z-axis plate before and after the optimization with the application of an LMS vibration/dynamic signal acquisition and analysis system. The experimental results were shown that the tested Z-axis plate dynamic characteristics were basically consistent with the obtained Z-axis supporting plate mode from simulation analyses using the finite element software Abaqus. It was proved that using the finite element software was feasible for optimizing the Z-axis supporting plate structure.
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abstractA constraint condition finite element analysis mode of the high speed PCB drilling machine Z-axis bottom plate was established on the platform of Abaqus. And then an optimal structural mode of a Z-axis supporting plate was obtained by means of performing constraint modal analysis and dynamic analysis optimization on the structure of the Z-axis supporting plate. modal tests and analyses were performed on the Z-axis plate before and after the optimization with the application of an LMS vibration/dynamic signal acquisition and analysis system. The experimental results were shown that the tested Z-axis plate dynamic characteristics were basically consistent with the obtained Z-axis supporting plate mode from simulation analyses using the finite element software Abaqus. It was proved that using the finite element software was feasible for optimizing the Z-axis supporting plate structure.
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doi10.4028/www.scientific.net/AMM.496-500.1016