Add to ORKGAccording to stress relaxation curves of phenolphthalein poly(ether ketone) (PEK-C) at different temperatures and the principle of time-temperature equivalence, the master curves of PEK-C at arbitrary reference temperatures are obtained. A coupling model (Kohlrausch-Williams-Watts) is applied to explain quantitatively the different temperature dependence of stress relaxation behavior and the relationship between stress relaxation and yield phenomenon is established through the coupling model
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
The tensile yield behaviour of an aliphatic polyketone is studied in relation to the molecular relax...
According to stress relaxation curves of phenolphthalein polyether ketone (PEK-C) at different tempe...
Stress relaxation and dynamic mechanical behavior of phenolphthalein poly(ether ketone) (PEK-C) have...
The viscoelastic behavior of phenolphthalein poly(ether ketone) (PEK-C) and its relationship to yiel...
The rate/temperature dependence of yield stress, tensile modulus and crack opening displacement of p...
A series of tensile and three-point bending studies was conducted at various temperatures and loadin...
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...
Phenolphthalein polyether ketone (PEK-C) exhibits a marked tensile yield behaviour. The yield stres...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
The tensile yield behaviour of an aliphatic polyketone is studied in relation to the molecular relax...
According to stress relaxation curves of phenolphthalein polyether ketone (PEK-C) at different tempe...
Stress relaxation and dynamic mechanical behavior of phenolphthalein poly(ether ketone) (PEK-C) have...
The viscoelastic behavior of phenolphthalein poly(ether ketone) (PEK-C) and its relationship to yiel...
The rate/temperature dependence of yield stress, tensile modulus and crack opening displacement of p...
A series of tensile and three-point bending studies was conducted at various temperatures and loadin...
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...
Phenolphthalein polyether ketone (PEK-C) exhibits a marked tensile yield behaviour. The yield stres...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
In this study, it is demonstrated that the apparent endurance (fatigue) limit for plasticity‐control...
AbstractA modified Johnson–Cook (JC) model was proposed to describe the flow behaviour of polyether-...
The tensile yield behaviour of an aliphatic polyketone is studied in relation to the molecular relax...