A study has been made on the effect of neutron irradiation on the tensile properties at room temperature of Magnox AL80, Mg-Al alloy and unalloyed magnesium as a function of grain size. Heat treated wire specimens were encapsulated and then irradiated in the JRR-2 reactor up to exposures of 1.2x1019nvt (epi-Cd energy). As a result the parameters σ0 and k in the Petch relationship increased in magnitude after irradiations exceeding 1x1017nvt. Among the materials tested Magnox AL80 was found to be the most sensitive to neutron irradiation and unalloyed magnesium the least effected. The effect of neutron irradiation on the strain rate (e) dependence of the tensile stress (σ) was also investigated. The effect of neutron irradiation was to increase A and to decrease B in the equation σ=A+B log e, when σ represented the yield stresses.
[1]
P. Evans,et al.
Irradiation hardening in columbium
,
1963
.
[2]
Douglas S Billington,et al.
Radiation damage in solids
,
1961
.
[3]
M. Makin,et al.
Irradiation hardening in copper and nickel
,
1960
.
[4]
J. Clark.
Response of Metals to High Velocity Deformation
,
1960
.
[5]
A. A. Johnson.
The embrittlement of molybdenum by neutron irradiation
,
1960
.
[6]
M. Adams,et al.
The hardening of copper by neutron irradiation
,
1959
.
[7]
D. Hull,et al.
Ductile-brittle transition in steels irradiated with neutrons
,
1958
.