The influence of pulsed 4 MeV Ni ion bombardment, with and without simultaneous helium injection, has been explored in a low swelling, Ti-' J modified austenitic stainless steel. Irradiations were carried out to 70 dpa at 950 K; the pulsing frequencies were either 60 s on/off or^ 1 s on/off. Compared to continuous irradiation, pulsing caused a decrease in the inter5titial loop diameter at 1 dpa, although at higher doses the overall dislocation density was not affected. Pulsing and helium both promoted the stability of MC precipitates and retarded the subsequent G phase formation; in some cases G-phase was suppressed and n phase formed instead. Small bubble-like cavities were observed to grow into large voids after steady dual beam irradiation to 70 dpa. However, this conversion was suppressed by pulsed irradiation to 70 dpa and furthermore the sizes of the small cavities were somewhat reduced. The results are explained in terms of current mechanistic understanding of mean point defect kinetics and the evolution of microstructure and microcoraposition during irradiation with superimposed annealing periods. Research sponsored by the Division of Materials Sciences, U. S. Department of Energy under contract W-7405-eng-26 with the Union,Carbide Corporation. NOTICE PORTIONS OF THIS REPORT ARE ILLEGIBLE. 8v «"p» n " °*«•»• """•• he iii i. i i n publisher or recipient actno»vl»c)9»» It das been reproduced from the best iMus.Go.«n m .nf,,,gnnoâ vailable copy to permit the broadest \"^".\T^o"ln''c7o''^'" possible availability.
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