A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ketone (PEEK) with the consideration of coupled effects of strain, strain rate and temperature. As compared to traditional JC model, the modified one has better ability to predict the flow behaviour at elevated temperature conditions. In particular, the yield stress was found to be inversely proportional to temperature from the predictions of the proposed model
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
The University of Twente performed experimental uniaxial compression tests of Poly(ether-ether-keton...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
The University of Twente performed experimental uniaxial compression tests of Poly(ether-ether-keton...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
A modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-ether-ke...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
The effects of strain rate and deformation temperature on the deformation behaviors of polyether-eth...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
In this work, a hyperelastic-thermoviscoplastic constitutive model including thermomechanical coupli...
The University of Twente performed experimental uniaxial compression tests of Poly(ether-ether-keton...
DOI
Add to ORKG