Full Length Research Paper
References
|
Azooz MA, El-Batal FH (2009). Gamma ray interaction with transition metals-doped lead silicate glasses. Materials Chemistry and Physics 117:59-65. |
|
|
Bartali L, Becherini F, Grazzi F, Zoppi M (2009). Surface scattering efficiency of some common materials for shielding pulsed neutron scattering instruments. Nuclear Instruments and Methods in Physics Research Sect A 608:360-362. |
|
|
Celli M, Grazzi F, Zoppi M (2006). A new ceramic material for shielding pulsed neutron scattering instruments. Nuclear Instruments and Methods in Physics Research A 565:861-863. |
|
|
Chen C, Wang L, Liu X, Yang W, Lin J, Chen G, Yang X (2019). K0.5Na0.5NbO3-SrTiO3/PVDF Polymer Composite Film with Low Remnant Polarization and High Discharge Energy Storage Density. Polymers 11: 310-321. |
|
|
D'Mellow B, Thomas DJ, Joyce MJ, Kolkowski P, Roberts NJ, Monk SD (2007). The replacement of cadmium as a thermal neutron filter. Nuclear Instruments and Methods in Physics Research A 577:690-695. |
|
|
Dolabi MB, Azimi A, Hosseini SH (2019). Preparation of thermal infrared and microwave absorber using WO3/MnFe3O4/polyaniline nanocomposites. Materials Research Innovations |
|
|
Fugaru V, Bercea S, Cristian P, Gheorghe M (2015). Gamma Ray Shielding Properties of Some Concrete Materials. Acta Physica Polonica Series A 127(4):1427-1429. |
|
|
Hosseini SH, Zamani P, Mousavi SY (2015a). Thermal infrared and microwave absorbing properties of SrTiO3/SrFe12O19/polyaniline nanocomposites. Journal of Alloys and Compounds 644:423-429. |
|
|
Hosseini SH, Alamian A, Mousavi SM (2016). Preparation of magnetic and conductive graphite nanoflakes/SrFe12O19/polythiophene nanofiber-nanocomposites and its radar absorbing application. Fibers and Polymers 17:593-599. |
|
|
Hosseini SH, Asadnia A, Moloudi M (2015b). Preparation and electromagnetic wave absorption hard-soft Ba ferrite/polypyrrole core-shell nanocomposites. Materials Research Innovations 19(2):107-112. |
|
|
Hosseini SH, Ezzati SN, Askari M (2015c). Synthesis, characterization and X-ray shielding properties of polypyrrole/lead nanocomposites. Polymers for Advanced Technologies 26:561-568. |
|
|
Hosseini SH, Soltanabadi Z (2016). Investigation of X-ray shielding properties of Au nano-composite-based polyaniline. Material Research Innovations 20:300-306. |
|
|
Hosseini SH, Zamani P (2016). Preparation of thermal infrared and microwave absorber using SrTiO3/BaFe12O19/polyaniline nanocomposites. Journal of Magnetism and Magnetic Materials 397:205-212. |
|
|
Hosseini SH, Azimi A, Dolabi MB (2019). Study of UV-Visible and near infrared absorption CsXWO3/polypyrrole nanocomposite. Materials Research Innovations. |
|
|
Hu P, Ji, Z, Shen Z, Wan P, Liu X (2018) High dielectric constant and energy density induced by the tunable TiO2 interfacial buffer layer in PVDF nanocomposite contained with core-shell structured TiO2 @BaTiO3 nanoparticles. Applied Surface Science 441:824-831. |
|
|
Kaplan MF (1989). Concrete Radiation Shielding. John Wiley & Sons, Inc., New York. |
|
|
Kim SC, Cho SH (2019). Analysis of the Correlation between Shielding Material Blending Characteristics and Porosity for Radiation Shielding Films. Applied Sciences 9(9):1765. |
|
|
Kipcak AS, Gurses P, Derun EM, Tugrul N, Piskin S (2013). Characterization of boron carbide particles and its shielding behavior against neutron radiation. Energy Conversion and Management 72:39-44. |
|
|
Modal S, Banthia AK (2005). Low-temperature synthetic route for boron carbide. Journal of the European Ceramic Society 25:287-291. |
|
|
Nambiar S, Yeow JT (2012). Polymer-Composite Materials for Radiation Protection, ACS Applied Materials and Interfaces 4(11):5717-5726. |
|
|
Onimus F, Bechade JL, Gilbon D (2013). Experimental Analysis of Slip Systems Activation in Neutron-Irradiated Zirconium Alloys and Comparison with Polycrystalline Model Simulations. Metallurgical and Materials Transactions A 44A:S45-S60. |
|
|
Sukegawa AM, Aanyama Y, Ohnishi S, Sakurai S, Kaminaga A, Okuno K (2011). Development of Flexible Neutron-Shielding Resin as an Additional Shielding Material. Journal of Nuclear Science and technology 48:585-590. |
|
|
Wozniak AI, Ivanov VS, Zhdanovich OA, Nazarov VI, Yegorov AS (2017). Modern Approaches to Polymer Materials Protecting from Ionizing Radiation. Oriental Journal of Chemistry 33(5):2148-2163. |
|
|
Yılmaz E, Baltas H, Kırıs E, Ustabas I, Cevik U, El-Khayatt AM (2011). Gamma ray and neutron shielding properties of some concrete materials. Annals of Nuclear Energy 38:2204-2212. |
|
|
Yiping H, Weijiang Z, Lu L, Jiao X, Zhou C (2013). A ''Sandwich'' type of neutron shielding composite filled with boron carbide reinforced by carbon fiber. Chemical Engineering Journal 220:143-150. |
|
|
Zhang P, Li Y, Wang W, Gao Z, Wang B (2013). The design, fabrication and properties of B4C/Al neutron absorbers. Journal of Nuclear Materials 437:350-358. |
|
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
