Detail publikace

The material model of railway wheel for numerical simulations of cyclic deformation

PEJCHAL, P. PETRUŠKA, J.

Originální název

The material model of railway wheel for numerical simulations of cyclic deformation

Český název

The material model of railway wheel for numerical simulations of cyclic deformation

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

cs

Originální abstrakt

The stabilized hysteresis loop was determined for the material of railway wheel, by the condition of steady amplitude of axial strain. The compressive test by laboratory and elevated temperature were also performed. The Chaboche material model and the nonlineaar kinematic material model was designed for this material. Theese material models were used in numerical simulations of rail wheel rolling on the rail. The stress strain responses, residual stresses and the different high cycle fatigue criterion were compared and the suitabiliy of used material models was discused.

Český abstrakt

The stabilized hysteresis loop was determined for the material of railway wheel, by the condition of steady amplitude of axial strain. The compressive test by laboratory and elevated temperature were also performed. The Chaboche material model and the nonlineaar kinematic material model was designed for this material. Theese material models were used in numerical simulations of rail wheel rolling on the rail. The stress strain responses, residual stresses and the different high cycle fatigue criterion were compared and the suitabiliy of used material models was discused.

Rok RIV

2006

Vydáno

15.05.2006

Nakladatel

UTAM AV ČR PRAHA

Místo

Svratka

ISBN

80-86246-27-2

Kniha

Engineering mechanics 2006

Strany od

123

Strany do

132

Strany počet

10

BibTex


@inproceedings{BUT24088,
  author="Petr {Pejchal} and Jindřich {Petruška}",
  title="The material model of railway wheel for numerical simulations of cyclic deformation",
  annote="The stabilized hysteresis loop was determined for the material of
railway wheel, by the condition of steady amplitude of axial strain. The
compressive test by laboratory and elevated temperature were also performed.
The Chaboche material model and the nonlineaar kinematic material model was
designed for this material. Theese material models were used in numerical
simulations of rail wheel rolling on the rail. The stress strain responses, residual
stresses and the different high cycle fatigue criterion were compared and the
suitabiliy of used material models was discused.",
  address="UTAM AV ČR PRAHA",
  booktitle="Engineering mechanics 2006",
  chapter="24088",
  institution="UTAM AV ČR PRAHA",
  year="2006",
  month="may",
  pages="123--132",
  publisher="UTAM AV ČR PRAHA",
  type="conference paper"
}