[1] 张桂敏, 郭建梅, 周成飞, 等.医用射线防护屏蔽材料的研究及应用[J].中国辐射卫生, 2005, 14(3):184-185.
[2] 袁微微.当前我国核电站辐射防护需要重点考虑和解决的问题[J].科技视界, 2019, 22:95-96.
[3] 孙天, 赵晓明.电磁屏蔽材料的研究进展[J].纺织科学与工程学报, 2018, 35(2):118-122.
[4] 马涛, 刘宇艳, 刘少柱, 等.防辐射材料的研究进展[J].高分子通报, 2012, 9:81-86.
[5] 何林, 蔡永军, 李强.中子和伽马射线综合屏蔽材料研究进展[J].材料导报, 2018, 32(7):1107-1113.
[6] Eid Gh A, Kany A I, El-Toony M M, et al.Application of epoxy/Pb3O4 composite for gamma ray shielding[J].Jour-nal of Nuclear Science and Applications, 2013, 46(2):226-233.
[7] Adeli R, Shirmardi S P, Mazinani S, et al.Nuclear charac-teristics of epoxy resin as a space environment neutron shielding[J].Kerntechnik, 2017, 82(1):125-131.
[8] Adeli R, Shirmardi S, Abbasi H, et al.Effect of neutron irradiation on neat epoxy resin stability in shielding appli-cations[J].Science and Engineering of Composite Materi-als, 2018, 25(4):725-729.
[9] Chang L, Zhang Y, Liu Y J, et al.Preparation and charac-terization of tungsten/epoxy composites for γ -rays radia-tion shielding[J].Nuclear Instruments and Methods in Physics Research Section B:Beam Interactions with Mate-rials and Atoms, 2015, 356-357:88-93.
[10] 张亚丽.环氧树脂基辐射防护材料的制备及性能研究[D].南京:南京航空航天大学, 2010.
[11] 张红旭.功能化碳纳米管/环氧树脂辐射防护材料制备及性能研究[D].南京:南京航空航天大学, 2014.
[12] 张瑜, 戴耀东, 李江苏, 等.聚丙烯酸铅/环氧树脂辐射防护材料的制备及性能研究[J].高分子学报, 2010, 5:582-587.
[13] Li R, Gu Y Z, Wang Y D.Effect of particle size on gam-ma radiation shielding property of gadolinium oxide dis-persed epoxy resin matrix composite[J].Materials Re-search Express, 2017, 4:035035.
[14] Dong Y, Chang S Q, Zhang H X, et al.Effects of WO3 particle size in WO3/epoxy resin radiation shielding ma-terial[J].Chinese Physical Society and IOP Publishing Ltd Chinese Physics Letters, 2012, 29(10):108102.
[15] Li R, Gu Y Z, Zhang G L, et al.Radiation shielding property of structural polymer composite:Continuous ba-salt fiber reinforced epoxy matrix composite containing erbium oxide[J].Composites Science and Technology, 2017, 143:67-74.
[16] AL-Dhuhaibat Mohammed Jebur Resen.Study of the shielding properties for some composite materials manu-factured from polymer epoxy supported by cement, alu-minum, iron and lead against gamma rays of the cobalt radioactive source (Co-60)[J].International Journal of Application or Innovation in Engineering & Manage-ment, 2015, 4(6):90-98.
[17] Zhang H X, Chang S Q, Kang B, et al.Preparation of functional particles modified epoxy multilayer composite and their radiation shielding properties[J].Advanced Ma-terials Research, 2014, 900:150-153.
[18] 蒋丹枫.橡塑合金辐射防护材料的制备及优化设计[D].南京:南京航空航天大学, 2017.
[19] Malekie Shahryar and Hajiloo Nahid.Comparative study of micro and nano size WO 3/E44 epoxy composite as gamma radiation shielding using MCNP and experiment[J].Chinese Physics Letters, 2017, 34(10):108102.
[20] 李江苏, 戴耀东, 张瑜, 等.氧化铒/环氧树脂辐射防护材料的制备及性能研究[J].化工新型材料, 2010, 38(5):48-52.
[21] Adeli R, Shirmardi S P, Ahmadi S J.Neutron irradiation tests on B 4C/epoxy composite for neutron shielding appli-cation and the parameters assay[J].Radiation Physics and Chemistry, 2016, 127:140-146.
[22] 陈飞达.新型纤维增强环氧树脂基复合材料研制及其中子屏蔽性能研究[C]//北京核学会.第八届(2012年)北京核学会核应用技术学术交流会论文集.重庆:北京核学会, 2012:715-719.
[23] 陈飞达, 汤晓斌, 王鹏, 等.基于蒙特卡罗方法的中子屏 蔽材 料设 计[J].强激 光与 粒子 束, 2012, 24(12):3016-3010.
[24] Jun J, Kim J, Bae Y, et al.Enhancement of dispersion and adhesion of B 4C particles in epoxy resin using di-rect ultrasonic excitation[J].Journal of Nuclear Materi-als, 2011, 416(3):293-297.
[25] Rodrigues D D, Broughton J G.Silane surface modifica-tion of boron carbide in epoxy composites[J].Internation-al Journal of Adhesion and Adhesives, 2013, 46:62-73.
[26] Abenojar J, Martínez M A, Velasco F, et al.Effect of bo-ron carbide filler on the curing and mechanical proper-ties of an epoxy resin[J].The Journal of Adhesion, 2009, 85(4/5):216-238.
[27] Okuno K.Neutron shielding material based on coleman-ite and epoxy resin[J].Radiation Protection Dosimetry, 2005, 115(1-4):258-261.
[28] Büyükyıldız M, Taşdelen M A, Karabul Y, et al.Mea-surement of photon interaction parameters of high-per-formance polymers and their composites[J].Radiation Ef-fects & Defects in Solids, 2018, 173(5/6):474-488.
[29] El-Sayed Abdo A, El-Sarraf M A, Gaber F A.Utiliza-tion of ilmenite/epoxy composite for neutrons and gam-ma rays attenuation[J].Annals of Nuclear Energy, 2003, 30(2):175-187.
[30] Korkut T, Gencel O, Kam E, et al.X-Ray, gamma, and neutron radiation tests on epoxy-ferrochromium slag composites by experiments and Monte Carlo simulations[J].International Journal of Polymer Analysis and Char-acterization, 2013, 18(3):224-231.
[31] El-Sarraf M A, El-Sayed A A, Abdul-Wahab M A.Us-ability of epoxy/ilmenite composite material as an attenu-ator for radiation and a restoration mortar for cracks[J].Annals of Nuclear Energy, 2013, 60:362-367.
[32] Elmahroug Y, Tellili B, Souga C.Determination of shielding parameters for different types of resins[J].An-nals of Nuclear Energy, 2014, 63:619-623.
[33] Canel A, Korkut H, Korkut T.Improving neutron and gamma flexible shielding by adding medium-heavy met-al powder to epoxy based composite materials[J].Radia-tion Physics and Chemistry, 2019, 158:13-16.
[34] Hu H, Wang Q S, Qin J, et al.Study on composite mate-rial for shielding mixed neutron and gamma-rays[J].IEEE Transactions on Nuclear Science, 2008, 55(4):2376-2384.
