Verification of Composite Steel and Concrete Bed Behaviour for Machine Tools

Vojtěch Kostiha; František Girgle; Ivana Švaříčková; Petr Daněk; Petr Štěpánek

doi:10.4028/www.scientific.net/SSP.322.170

Paper Titles

Experimental Verification of Slender Reinforced Concrete Columns Design
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Effect of Struts and Stirrups Inclinations on Shear Resistance
p.151

Production of the Test Timber-UHPC Composite Bridge
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Fatigue Behaviour of GFRP Reinforced Beams
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Verification of Composite Steel and Concrete Bed Behaviour for Machine Tools
p.170

Implementation and Testing of Short Span Footbridge System Made of UHPC
p.176

Strengthening of Concrete Structures Using UHPC - Experimental Verification
p.185

Evaluation of Behaviour of Plan Curved Structure Supported by Arch
p.193

Using the Ultrasonic Method for the Defectoscopy of Failures in Reinforced Concrete Columns
p.203

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Verification of Composite Steel and Concrete Bed Behaviour for Machine Tools

Abstract:

This paper focuses on the theoretical and experimental verification of a behaviour composite reinforced concrete bed for installation in high-precision machine tools. The design solution consists of coupling the steel shell and HPC concrete filling, which ensures the high rigidity of the bed. Studies in this article were aimed at describing, in detail, the behaviour of the bed, from production to setting into its final position. An integral part of the solution was implementing the measurement of the response of the real bed segment using the installed monitoring system as well as the numerical simulations performed on the assembled FEM model. Thanks to the modular design of the bed, it was possible to verify the behaviour of the simulated load during the operation of the machine tool on a smaller sample. The aim is to verify the functionality of the coupling and, based on the comparison of measured and theoretical data, to define the critical points of the composite and, thus, provide a basis for design optimisation in order to maximise the monitored parameters.

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Periodical:

Solid State Phenomena (Volume 322)

Pages:

170-175

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.322.170

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Online since:

August 2021

Authors:

Vojtěch Kostiha*, František Girgle, Ivana Švaříčková, Petr Daněk, Petr Štěpánek

Keywords:

Composite Steel, Concrete Structure Bed, Coupling, Monitoring System, Numerical Model

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References

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DOI: 10.1063/5.0043329

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