Effects ofγ-irradiation and deformation temperature(T)on the tensile properties of Pb-2mass% Sb alloys were studied.The samples were annealed at 458 Kfor 2hin air,then water quenched after they wereγ-irradiated(t...Effects ofγ-irradiation and deformation temperature(T)on the tensile properties of Pb-2mass% Sb alloys were studied.The samples were annealed at 458 Kfor 2hin air,then water quenched after they wereγ-irradiated(the different doses were 0.5,1.0,1.5,and 2.0 MGy).The tensile properties were performed using stress-strain measurements at a constant strain rate(1.2×10^(-3) s^(-1))and at different T(303-393K).It was found that at constant dose,the fracture stress(σF)decreases while the fracture strain(εF)increases as Tincreases.At particular T,σFincreases whileεFdecreases with increasing dose.The strain-hardening exponent(n),which is the slope of the relation between ln(σ)and ln(ε)of the parabolic part of the stress-strain curve,was determined and its values increase as Tincreases and decrease as the dose increases.The value of the activation energy increases as the dose increases from 0.07 eV for un-irradiated sample to 0.1eV for the 2 MGy-irradiated sample.These values are in accordance with that needed for dislocation movement and ordering process.An interpretation of the results was given,based on the creation of point and line defects due toγ-irradiation,and that results in a distribution of beta phase(Sb-phase),leading to a difficulty in the movement of dislocations,so there is an increase in alloy hardness.展开更多
基金Deanship of Scientific Research,Northern Border University,Arar,Kingdom of Saudi Arabia,for financial support
文摘Effects ofγ-irradiation and deformation temperature(T)on the tensile properties of Pb-2mass% Sb alloys were studied.The samples were annealed at 458 Kfor 2hin air,then water quenched after they wereγ-irradiated(the different doses were 0.5,1.0,1.5,and 2.0 MGy).The tensile properties were performed using stress-strain measurements at a constant strain rate(1.2×10^(-3) s^(-1))and at different T(303-393K).It was found that at constant dose,the fracture stress(σF)decreases while the fracture strain(εF)increases as Tincreases.At particular T,σFincreases whileεFdecreases with increasing dose.The strain-hardening exponent(n),which is the slope of the relation between ln(σ)and ln(ε)of the parabolic part of the stress-strain curve,was determined and its values increase as Tincreases and decrease as the dose increases.The value of the activation energy increases as the dose increases from 0.07 eV for un-irradiated sample to 0.1eV for the 2 MGy-irradiated sample.These values are in accordance with that needed for dislocation movement and ordering process.An interpretation of the results was given,based on the creation of point and line defects due toγ-irradiation,and that results in a distribution of beta phase(Sb-phase),leading to a difficulty in the movement of dislocations,so there is an increase in alloy hardness.
