4. ConclusionsThe cross-link densit

4. Conclusions
The cross-link density of NBR composites increases with
increasing the content of sulfur, peroxide, or radiation dose. The
cross-link density greatly affects the mechanical properties of vulcanizates,
tensile strength go through maximum for every cured
system by increasing the vulcanizing agent concentration, thereafter
decrease by the over cure. Hardness, Young’s modulus, and
modulus at given elongation increased by increasing the cross-link
density, while elongation decreased. The physico-chemical properties;
like swelling ratio, soluble fraction and Mc have been decreased
by increasing the cross-link density. The cured systems
of sulfur, 2 phr, peroxide, 1.5 phr and radiation/coagent (100 kGy)
for NBR elastomer gave comparable values of Vr, 0.31. The sulfur
and peroxide cured systems when compared by the radiation/coagent
system gave slightly higher in values of tensile strength,
though of lesser cross-link density and thermal stability. On the
other hand, higher values of swelling in fuel and abrasion loss were
reported. The radiation/coagent (100 kGy) cured system gave higher
results in thermal stability, thermal ageing, young’s modulus,
modulus at given elongation, abrasion resistance and fuel resistance
than those of the sulfur cured system. The cured systems
peroxide/coagent and radiation/coagent (150 kGy) gave comparable
values of Vr, 0.37, and similar values for the physcio-chemical
and mechanical properties, except tensile strength reported
slightly higher values as a result of irradiation.