Add to ORKGAssessment of lifetime under spectrum-fatigue loading was undertaken on GFRP composites material, using cumulative damage models proposed by Palmgren-Miner, Broutman & Sahu, Hashin & Rotem and Epaarachchi & Clausen. None of the models were not performed well. Epaarachchi & Clausen model which is based on reisdual strength has the flexibility of applying according to assumed damage accumulation mechanisms. This model consistently predicting conservative lifetime while the other models almost over predicting. Further, a statistical analysis perform on predictions has shown that the Epaarachchi and Clausen model is performing better than the other models
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Estimation of the remaining useful life (RUL) based on the elastic strain energy density using the n...
Many cumulative damage theories have been used in lifetime calculation of GFRP composite components....
This paper presents and discusses a new fatigue damage accumulation model for Glass Fibre Reinforced...
The accurate modeling of the fatigue behavior of composite materials under constant amplitude (CA) c...
Current models used to predict the fatigue life of glass fibre-reinforced plastic composites do not ...
A study of damage characterization of a GFRC laminate is resented here. Forty fatigue tests were exe...
Glass fibre-reinforced plastic (GFRP) composite laminates are used in many industries due to their e...
Current models used to predict the fatigue life of glass fibre-reinforced plastic composites do not ...
Nine types of glass fiber reinforced epoxy specimens were subjected to spectrum fatigue loading. Amo...
The success in the use of composite materials requires apart from cost-effective manufacturing a wel...
This paper discusses the prediction of fatigue response of composites using an empirical strength an...
This paper discusses the prediction of fatigue response of composites using an empirical strength an...
A new computational tool for the fatigue life prediction of composite materials, designated CCfatigu...
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Estimation of the remaining useful life (RUL) based on the elastic strain energy density using the n...
Many cumulative damage theories have been used in lifetime calculation of GFRP composite components....
This paper presents and discusses a new fatigue damage accumulation model for Glass Fibre Reinforced...
The accurate modeling of the fatigue behavior of composite materials under constant amplitude (CA) c...
Current models used to predict the fatigue life of glass fibre-reinforced plastic composites do not ...
A study of damage characterization of a GFRC laminate is resented here. Forty fatigue tests were exe...
Glass fibre-reinforced plastic (GFRP) composite laminates are used in many industries due to their e...
Current models used to predict the fatigue life of glass fibre-reinforced plastic composites do not ...
Nine types of glass fiber reinforced epoxy specimens were subjected to spectrum fatigue loading. Amo...
The success in the use of composite materials requires apart from cost-effective manufacturing a wel...
This paper discusses the prediction of fatigue response of composites using an empirical strength an...
This paper discusses the prediction of fatigue response of composites using an empirical strength an...
A new computational tool for the fatigue life prediction of composite materials, designated CCfatigu...
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Fatigue damage progression in composite materials is governed by different failure mechanisms, each ...
Estimation of the remaining useful life (RUL) based on the elastic strain energy density using the n...