采用本体聚合的方法制备了含铅/钐功能粒子的辐射防护有机玻璃,研究了不同金属浓度样品的性能差异.通过傅里叶变换红外光谱(FT-IR)、扫描电镜(SEM)、能量色散型X射线能谱(EDAX)等方法研究了材料的微观结构;采用紫外分光光度计(UV)对材料的透光率进行了测试和分析;利用多道γ谱仪和Gamma Vision软件测试并分析了材料的辐射防护性能.结果表明,铅和钐两种功能元素同时被引入到有机玻璃中,甲基丙烯酸铅/钐与甲基丙烯酸甲酯发生聚合反应,功能性粒子在材料中分布比较均匀,有轻微的团聚现象,并且具有较好的光学性能,透光率较高,材料对高能和低能射线都有较好的屏蔽效果.
参考文献
| [1] | Quapp W J .Radiation shielding composition[P].US,6166390,2000. |
| [2] | Ronald D .Lightweight Radiation protective garments[P].US,6459091,2001. |
| [3] | Wilson J W;Cucinotta F A;Miller J et al.Approach and issues relating to shield material designed to protect astronauts from space radiation[J].Materials and Design,2001,22(7):541. |
| [4] | Yoshinori Sakurai;Akira Sasaki;Tooru Kobayashi .Development of neutron shielding material using metathesis-polymer matrix[J].Nuclear Instruments and Methods in Physics Research, Section A. Accelerators, Spectrometers, Detectors and Associated Equipment,2004(3):455-461. |
| [5] | Fan G H;Geng L;Wang G S et al.A novel radiation protection material:BaAbO3/Al composite[J].Materials and Design,2009,30(3):862. |
| [6] | Spillantini P;Casolino M;Durante M et al.Shielding from cosmic radiation for interplanetary missions:Active and passive methods[J].Radiation Measurements,2009,42(1):14. |
| [7] | Scuderi G J;Brusovanik G V .Evaluation of non-lead-based protective radiological material in spinal surgery[J].SPINE JOURNAL,2006,153(6):577. |
| [8] | Lee DY;Park IS;Lee MH;Kim KJ;Heo S .Ionic polymer-metal composite bending actuator loaded with multi-walled carbon nanotubes[J].Sensors and Actuators, A. Physical,2007(1):117-127. |
| [9] | Sahin S;Sehin H M;Acir A .Radiation shielding calculations for the vista spacecraft[J].Energy Conv Manag,2005,46(15):2345. |
| [10] | 杨程,刘力,隋轶巍,贺磊,张立群.Gd(AA)3/NR复合材料防X射线屏蔽性能及力学性能的研究[J].合成橡胶工业,2004(01):49-49. |
| [11] | Dave A M .Synthesis of lead methacrylate[J].POLYMER,1984,25(7):1020. |
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