摘要
采用主峰波长为365nm的紫外光灯对经32S离子和79Br离子辐照过的16μm厚的聚丙烯(PP)膜正反面分别敏化6、8、10、12h。选取重铬酸钾和硫酸的混合溶液作为蚀刻液对样品膜进行蚀刻,采用电导法监测电流随蚀刻时间的变化,确定不同敏化时间下样品膜的导通时间。同种离子辐照后敏化时间越长,膜导通时间越短,径迹蚀刻速率也越快,且辐照离子的原子序数越大,该影响越明显。相同敏化时间(12h)和蚀刻条件下,32S离子辐照后膜的导通时间是79Br离子辐照后的4.8倍。
16 μm polypropylene (PP) films irradiated by 32S and 79Br were sensitized for 6 ,8 ,10 and 12 h on both sides by UV-irradiation light whose main peak wavelength is 365 nm . The mixed solution of potassium dichromate and sulfuric acid was used as etchant for the film samples .The conductance measurement was applied to monitor the current change with etching time .The breakthrough time of the samples at different sensitization time was measured . With the same ion irradiation , the longer the sensitization time ,the faster the etching rate .The relation between sensitization time and the etching rate also depends on the irradiating ions .At the same sensitization time (12 h) and etching conditions ,the breakthrough time for samples irradiated by 32 S is 4.8 times of that by 79 Br .
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2014年第1期189-192,共4页
Atomic Energy Science and Technology
基金
国家自然科学基金资助项目(11075218)
关键词
聚丙烯膜
紫外光敏化
电导法
径迹蚀刻速率
polypropylene film
UV sensitization
conductance measurement
track etching rate
