摘要
采用机械搅拌方法,将碳纤维、纸浆纤维与纳米氧化铋颗粒均匀分散混合,再通过浸置法将混合物置于水性聚氨酯中,制备纤维基轻质高效X射线防护材料。探讨将纳米氧化铋颗粒分散至纤维网结构对材料微观形貌、透气性能及X射线防护性能的影响。研究结果表明,相同纳米氧化铋添加量下,结合了碳纤维和纸浆纤维的材料相较于传统不含纤维网结构的纳米氧化铋-水性聚氨酯材料,X射线防护效果更好,且具备一定的透气性能。100 kV管电压条件下,质量为26.00 g、厚1.2 mm的纤维基轻质高效X射线防护材料能够实现铅当量为0.35 mmPb的防护效果,而相同面积下同等铅当量、厚1.2 mm的市售铅橡胶材料的质量则为32.46 g,相比之下,纤维基轻质高效X射线防护材料能够实现质量减小20%的效果。研究为轻质高效X射线防护材料的开发提供新思路。
Carbon fibers,pulp fibers and bismuth oxide nanoparticles were dispersed and mixed by mechanical stirring method,and then the mixture was placed in waterborne polyurethane by immersion method to prepare fiber-based lightweight and efficient X-ray protection materials.The effecTSof dispersing the bismuth oxide nanoparticles into fiber network structure on the micro-morphology,air permeability and X-ray protection properties of the materials were investigated.The resulTSshowed that the materials combining carbon fibers and pulp fibers had better X-ray protection property and certain air permeability than the traditional bismuth oxide nanoparticles/waterborne polyurethane materials without fiber web structure at the same amount of bismuth oxide nanoparticles.Under the condition of 100 kV tube voltage,the fiber-based lightweight high-efficiency X-ray protection material with the mass of 26.00 g and thickness of 1.2 mm could achieve the protective effect of lead equivalent of 0.35 mmPb,while the mass of the same lead equivalent and thickness of commercially available lead rubber material under the same surface area was 32.46 g,which indicated that the fiber-based lightweight high-efficiency X-ray protection materials could achieve a mass reduction of 20%.The research provides a new idea for the development of lightweight and efficient X-ray protection materials.
作者
冯斯涵
韩刘佳
陈长洁
王新厚
Feng Sihan;Han Liujia;Chen Changjie;Wang Xinhou(College of Textiles,Donghua University,Shanghai 201620,China;College of Chemistry and Chemical Engineering,Donghua University,Shanghai 201620,China;College of Mechanical Engineering,Donghua University,Shanghai 201620,China)
出处
《产业用纺织品》
2024年第12期20-26,共7页
Technical Textiles
基金
国家自然科学基金青年基金项目(52203056)。
关键词
X射线
纤维基
氧化铋
防护材料
透气性能
防护性能
铅当量
X-ray
fiber-based
bismuth oxide
protective material
air permeability
protective property
lead equivalent
