排序方式: 共有76条查询结果,搜索用时 171 毫秒
21.
22.
23.
用二-2-乙基己基磷酸(HDEHP)做萃取剂,Na2CO3做反萃剂,234Th为示踪剂,完成了从盐酸溶液中液-液萃取Th(IV)的实验研究。在不同萃取条件下(包括HDEHP和Na2CO3溶液浓度、震荡时间、有机相和水相比值等)对234Th百分萃取(或反萃取)作了一系列实验。发现,随HDEHP浓度的增加,234Th的萃取效率明显增加。当HDEHP的浓度≥20%时,234Th的萃取效率>97%;用Na2CO3溶液能有效地从有机相中反萃出234Th,当Na2CO3溶液的浓度≥0.5mol/L时,234Th的反萃效率>96%;反萃时,震荡周期长于4min时,两相能达到反萃平衡;随有机相和水相比值的增加,234Th的萃取效率也明显地增加,在合适的萃取条件下,有机相与水相比值≥4:1时,高达97%的234Th进入有机相。 相似文献
24.
The 230Ra has been produced via 232Th-2p reaction induced by 60 MeV/u 18O ion irradia-tion of natural thorium. The radium was radiochemically separated from the mixture of thorium andreaction products. Thin Ra sources in which 230Ac was got through 230Ra β- → 230Ac were pre-pared for observing fission fragments from β-delayed fission of 230Ac. The sources were exposedto the mica fission track detectors and measured by the HPGe γ detector. The precursor 230Ac wasidentified by means of observed two fission events as well as γ spectra, and the β-delayed fissionprobability of 230Ac was obtained to be (1.19±0.85) × 10-8. 相似文献
25.
新重丰中子核237Th的合成和鉴别 总被引:1,自引:1,他引:0
用14MeV中子照射(NH4)2U2O7粉末,通过238U(n,2p)237Th反应产生了新的重丰中子同位素237Th,并用放射化学方法分离了它.借助于跟踪其子体237pa的γ射线的时间序列谱首次鉴别了这个新活性.利用递次衰变分析程序得到了237Th的半衰期为5.0±0.9min.另外,发现了一条能量为35.1±0.3keV T1/2=5.0±1.1min的新γ射线并指定它为237Th衰变. 相似文献
26.
27.
28.
29.
30.