Di. Vainshtein et al., Effect of the void formation on the explosive fracture of electron irradiated NaCl crystals, NUCL INST B, 166, 2000, pp. 550-555
Experimental and theoretical results are presented on formation of colloids
, halogen bubbles and large vacancy voids in heavily irradiated NaCl crysta
ls leading to their explosive decomposition into small pieces under further
irradiation or subsequent heating. The dependence of the radiation stabili
ty of material with increasing irradiation dose on the void evolution is an
alyzed. It is shown that voids can grow very fast as compared to colloids a
nd bubbles. For doses higher than 100 Grad, the void dimensions can exceed
the mean distance, first, between bubbles and then between colloids resulti
ng in their collisions with voids. Collisions with bubbles fill the voids w
ith gas, and subsequent collisions with colloids (during further irradiatio
n or heating) bring the halogen gas and metal to a back reaction inside the
voids. Such a sudden release of stored energy can be shown to result in a
temperature spike (above 10(4) K) and instantaneous gas pressure rise up to
1 GPa within the voids, which may transform voids into penny-shaped cracks
along the cleavage planes of the matrix. A subsequent growth of the cracks
results in fracture of the material. Dependence of the critical amount of
stored energy required for the void-crack transition on the mean size of th
e voids is estimated and compared with experimental data. (C) 2000 Elsevier
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