STRUCTURE CHANGE OF ELASTOMER BY IRRADIATION (III)

THE EFFECT OF IONIZING RADIATION ON MOONEY-RIVLIN PLOT OF ELASTOMER

Abstract

The changes of C₁ and C₂ of Mooney-Rivlin plot of elastomer by irradiation was studied.
The sample used is tetrafluoroethylene-propylene copolymer. Scission reaction of the polymer chain is predominant when the diffusion of oxygen is sufficient enough during irradiation. On the other hand, irradiation without oxygen in the polymer increases the crosslinking density.
The result for three cases are as follows:
(1) Values of C₁ increase and that of C₂ decrease with increasing dose when the cross-linking density of the elastomer increase by irradiation.
(2) Both C₁ and C₂ decreases with increasing dose when the irradiation causes a decrease in cross-linking density of the polymer.
(3) The third case, where the cross-linking density was maintained the constant by the alternative irradiation of γ ray (60kGy) and electron beam (40kGy).
The operation (alternating irradiation) causes the same amount of scission and cross-linking in the polymer.
C₁ increases slightly with increasing the times of operation and C₂ decreases with increasing the times of that.
The result suggests that C₂ decreases with decreasing the effective long network chain by irradiation.