The main aim of this thesis is to define material parameters of Chaboche model of plasticity. Adjustment of the parameters has to correspond to the experimental datas. These datas are represented by an uniaxial strain controlled test curve for fewer than two cycles and also by cyclic stress-strain curve. After that, an cyclic tension-compresion test for various parameters of Chaboche´s model of plasticity is simulated in an ANSYS software. Finally, the most suitable configuration of Chaboche´s model of plasticity is used for cylindrical thick-walled body. Cylindrical body represents a simplified model of high-pressure tank of fuel (diesel) – rail in Common Rail system
The development of a steel material model in order to follow the cyclic plastic behaviour is essenti...
AbstractIn the future, the energy supply will strongly fluctuate, which results in more frequently l...
Strength and strain analysis of high pressure compound vessel, which is used to produce superhard ma...
The master‘s thesis is aimed on numerical simulation of autofrettage of high pressure fuel vessel – ...
This paper points out a sufficient description of the stress-strain behaviour of the Chaboche nonlin...
It may be inevitable in the design and analysis of most high temperature components (such as power i...
Determining representative material constant sets for models that can accurately predict the complex...
A calculating apparatus has been developed to help evaluate the stress-strain state in the plastic f...
One of the main characteristics of the existing plasticity theories is the lack of a theory and spe...
The work is aimed at theoretical and experimental study of defining relations of the version of the ...
Tato bakalářská práce se zabývá kalibrací parametrů Chabocheova modelu podle tvaru hysterezních smyč...
International audienceA mechanical modelling is proposed in order to describe viscoplastic behaviour...
An experimental programme of cyclic mechanical testing of a 316 stainless steel, at temperatures up ...
This study intends to evaluate thermal ratchetting deformation due to cyclic thermal loading along t...
The effect of including material strain hardening on the gross plastic deformation (GPD) load of fou...
The development of a steel material model in order to follow the cyclic plastic behaviour is essenti...
AbstractIn the future, the energy supply will strongly fluctuate, which results in more frequently l...
Strength and strain analysis of high pressure compound vessel, which is used to produce superhard ma...
The master‘s thesis is aimed on numerical simulation of autofrettage of high pressure fuel vessel – ...
This paper points out a sufficient description of the stress-strain behaviour of the Chaboche nonlin...
It may be inevitable in the design and analysis of most high temperature components (such as power i...
Determining representative material constant sets for models that can accurately predict the complex...
A calculating apparatus has been developed to help evaluate the stress-strain state in the plastic f...
One of the main characteristics of the existing plasticity theories is the lack of a theory and spe...
The work is aimed at theoretical and experimental study of defining relations of the version of the ...
Tato bakalářská práce se zabývá kalibrací parametrů Chabocheova modelu podle tvaru hysterezních smyč...
International audienceA mechanical modelling is proposed in order to describe viscoplastic behaviour...
An experimental programme of cyclic mechanical testing of a 316 stainless steel, at temperatures up ...
This study intends to evaluate thermal ratchetting deformation due to cyclic thermal loading along t...
The effect of including material strain hardening on the gross plastic deformation (GPD) load of fou...
The development of a steel material model in order to follow the cyclic plastic behaviour is essenti...
AbstractIn the future, the energy supply will strongly fluctuate, which results in more frequently l...
Strength and strain analysis of high pressure compound vessel, which is used to produce superhard ma...