Add to ORKGA finite element based approach is used to simulate the evolution of low cycle fatigue damage in a turbine blade. The turbine blade is modelled as a rotating Timoshenko beam with taper and twist. A damage growth model for low cycle fatigue damage developed using a continuum mechanics approach is integrated with the finite element model. Numerical results are obtained to study the effect of damage growth on the rotating frequencies. It is found that low cycle fatigue causes sufficient degradation in blade stiffness for changes in rotating frequency to be used as an indicator to track damage growth. Continuum damage mechanics models in conjunction with finite element analysis are used to develop thresholds for damage indicators. By placing su...
GMS turbine cracking problem was investigated using finite element analysis. Analysis results confi...
Crack appearance in the blade is the most common type of fatigue damage in Francis turbines. However...
Turbine stages are exposed to a variety of excitation sources in the power industry. The resulting f...
Abstract- Modal analysis has been important to the designers and operators since the inception of th...
In this report, the finite element method is applied to study the crack effect on the dynamic behavi...
The present paper deals with the low cycle fatigue analysis of the low pressure (LP) steam turbine b...
This dissertation presents an approach to use blade tip timing measurements with finite element anal...
The present paper deals with the low cycle fatigue analysis of the low pressure (LP) steam turbine b...
In this paper, the results of an experimental fatigue analysis of the compressor blades with the mec...
The prediction of damage progression in composite wind turbine blades, especially under dynamic aero...
The reliability of modern gas turbine engines is largely due to careful damage tolerant design a met...
Damping blades of turbines caused by a sudden change of a loading. Such a change causes transients i...
The work done for this thesis is related to fatigue analysis of various material types used in the w...
© 2016, The Author(s) 2016. In this paper a vibration-based approach to identify a crack in a wind t...
The presence of crack in a structure tends to modify its modal parameters (natural frequencies and m...
GMS turbine cracking problem was investigated using finite element analysis. Analysis results confi...
Crack appearance in the blade is the most common type of fatigue damage in Francis turbines. However...
Turbine stages are exposed to a variety of excitation sources in the power industry. The resulting f...
Abstract- Modal analysis has been important to the designers and operators since the inception of th...
In this report, the finite element method is applied to study the crack effect on the dynamic behavi...
The present paper deals with the low cycle fatigue analysis of the low pressure (LP) steam turbine b...
This dissertation presents an approach to use blade tip timing measurements with finite element anal...
The present paper deals with the low cycle fatigue analysis of the low pressure (LP) steam turbine b...
In this paper, the results of an experimental fatigue analysis of the compressor blades with the mec...
The prediction of damage progression in composite wind turbine blades, especially under dynamic aero...
The reliability of modern gas turbine engines is largely due to careful damage tolerant design a met...
Damping blades of turbines caused by a sudden change of a loading. Such a change causes transients i...
The work done for this thesis is related to fatigue analysis of various material types used in the w...
© 2016, The Author(s) 2016. In this paper a vibration-based approach to identify a crack in a wind t...
The presence of crack in a structure tends to modify its modal parameters (natural frequencies and m...
GMS turbine cracking problem was investigated using finite element analysis. Analysis results confi...
Crack appearance in the blade is the most common type of fatigue damage in Francis turbines. However...
Turbine stages are exposed to a variety of excitation sources in the power industry. The resulting f...