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Barium sulfate/regenerated cellulose composite fiber with X-ray radiation resistance
来源:曲丽君教授个人网站 发布日期:2016-01-28
作者:Qu L, Mingwei Tian, Zhang X, et al.
关键字:X-ray radiation resistance,regenerated cellulose fiber,barium sulfate,spinning solution,attenuation ratio,radiation-resistant apparel,detective surgical yarn
论文来源:期刊
具体来源:http://jit.sagepub.com/content/early/2014/05/09/1528083714534708.abstract
发表时间:2015年
In this article, submicron barium sulfate particles, as the radiation-resistant component, were incorporated into regenerated cellulose spinning solution. Then a series of X-ray radiation-resistant fibers were fabricated via a primarily industrialized wet-spinning trail, and the resultant fibers were knitted into fabrics by knitting loom. The morphology and structure of the fibers were studied with the aid of scanning electron micrography, Fourier-transform infrared spectroscopy, and X-ray diffraction. The composite fibers exhibited reasonably good properties, which met the criteria of mechanical requirements of commercial textiles—dry breaking strength and elongation (>1.5 cN/dtex and 26%) and wet breaking strength and elongation (>1.4 cN/dtex and 22%) and permanent laundry-resistant abilities even after being washed 20 times. An effective and feasible X-ray radiation-resistant method, the medical digital X-ray photography system, was proposed to evaluate the radiation resistance of the composite fiber and its fabric. The X-ray attenuation ratio of the sample tended to increase with increasing barium sulfate content and finally reached a dose of a 0.1 mmPb lead equivalent. Therefore, these fibers and fabrics can be utilized as the base materials for X-ray radiation-resistant lightweight apparel and detective surgical yarn.
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