金属学报
金屬學報
금속학보
ACTA METALLURGICA SINICA
2009年
10期
1277-1280
,共4页
陈淼%陆光达%张桂凯%张延志%王小英%任大鹏
陳淼%陸光達%張桂凱%張延誌%王小英%任大鵬
진묘%륙광체%장계개%장연지%왕소영%임대붕
Pd%Pd_91.31Y_8.50Ru_0.19%氚老化%~3He%He泡
Pd%Pd_91.31Y_8.50Ru_0.19%氚老化%~3He%He泡
Pd%Pd_91.31Y_8.50Ru_0.19%천노화%~3He%He포
Pd%Pd_91.31Y_8.50Ru_0.19%tritium aging%~3He%He bubble
为了解Pd及其合金贮氚(T)老化后,~3He在材料中的存在形式及分布状态,利用XRD与TEM分别分析了贮T老化1.6和3.5 a的Pd粉,以及贮T老化41和295 d的Pd_91.31Y_8.50Ru_0.19合金膜的结构变化.结果表明:T老化使得Pd粉的XRD峰变宽且峰强降低,品格发生畸变,同时,衍射峰略向低角度偏移,品格发生膨胀,1.6和3.5 a老化后,晶格常数分别增加0.095%和0.11%;在老化41 d的Pd_91.31Y_8.50Ru_0.19合金膜中,观察到分布均匀,直径约为1 nm的He泡,同时存在高密度的位错及位错环,在老化295 d的样品中,He泡直径略微增加,达1.2-1.4 nm,且分布均匀,位错及位错环密度降低.
為瞭解Pd及其閤金貯氚(T)老化後,~3He在材料中的存在形式及分佈狀態,利用XRD與TEM分彆分析瞭貯T老化1.6和3.5 a的Pd粉,以及貯T老化41和295 d的Pd_91.31Y_8.50Ru_0.19閤金膜的結構變化.結果錶明:T老化使得Pd粉的XRD峰變寬且峰彊降低,品格髮生畸變,同時,衍射峰略嚮低角度偏移,品格髮生膨脹,1.6和3.5 a老化後,晶格常數分彆增加0.095%和0.11%;在老化41 d的Pd_91.31Y_8.50Ru_0.19閤金膜中,觀察到分佈均勻,直徑約為1 nm的He泡,同時存在高密度的位錯及位錯環,在老化295 d的樣品中,He泡直徑略微增加,達1.2-1.4 nm,且分佈均勻,位錯及位錯環密度降低.
위료해Pd급기합금저천(T)노화후,~3He재재료중적존재형식급분포상태,이용XRD여TEM분별분석료저T노화1.6화3.5 a적Pd분,이급저T노화41화295 d적Pd_91.31Y_8.50Ru_0.19합금막적결구변화.결과표명:T노화사득Pd분적XRD봉변관차봉강강저,품격발생기변,동시,연사봉략향저각도편이,품격발생팽창,1.6화3.5 a노화후,정격상수분별증가0.095%화0.11%;재노화41 d적Pd_91.31Y_8.50Ru_0.19합금막중,관찰도분포균균,직경약위1 nm적He포,동시존재고밀도적위착급위착배,재노화295 d적양품중,He포직경략미증가,체1.2-1.4 nm,차분포균균,위착급위착배밀도강저.
During tritium (T) treatment, Pd and its alloys will be aged due to solution of ~3He, a product of T decay, in lattices, which changes the microstructure and properties of the materials. The existing and distributing states of ~3He in Pd and Pd_91.31Y_8.50Ru_0.19 alloy during T aging were studied by XRD and TEM. XRD results for Pd powders aged up to 1.6 and 3.5 a show that the peaks widen, intensities of peaks reduce and lattice constants increase by 0.095% and 0.11%, respectively. TEM observations show that about 1 nm sized He bubbles appear in Pd_91.31Y_8.50Ru_0.19 alloy aged for 41 d, and more dislocations and dislocation loops are observed; after 295 d aging, the He bubbles grow slightly and reach 1.2-1.4 nm in diameter, but the amounts of dislocations and dislocation loops decrease.
