Araştırma Makalesi
Development and Production of High Heat Resistant Heavy Concrete Shielding Materials for Neutron and Gamma Radiation
Öz
Radiation shielding Heavy concretes samples
Anahtar Kelimeler
Kaynakça
- FREİDBERG, J. (2007). Plasma Physics and Fusion Energy. Cambridge university press. 25-30
- H TÜRCK, E CALZADA, B SCHİLLİNGER. (2011). EP Patent Shielding material and shielding element for shielding gamma and neutron radiation ( freepatentsonline.com.)H.L. HONDORP. (1984). Neutron and gamma radiation shielding material, structure, and process of making structure, USpatent, 4.437.013. HU HUASİ. (2011). Composite Material for Shielding Mixed Radiation, Advances in Composite Materials for Medicine and Nanotechnology, ISBN: 978-953-307-235-7,InTech,Available from:http://www.intechopen.com/books/advances-in-composite-materials-for-medicine-andnanotechnology/composite-material-for-shielding-mixed-radiationH TANİUCHİ, J SHİMOJO, Y SUGİHARA, E OWAKİ. (2007). Cement composite, concrete, concrete cask and method of manufacturing concrete US Patent US20040067328A1KİRSTEN, B MOYSİCH. RAVİ, J MENEZES. ARTHUR, M MİCHALEK. (2002). Chernobyl-related ionising radiation exposure and cancer risk: an epidemiological review.3: 269-279.MESBAHİ, A. ASGHAR, A. AZARPEYVAND, A. SHİRAZİ. (2011). Photoneutron production and back scattering in high density concretes used for radiation therapy shielding. Annals of Nuclear Energy,38: 2752-2756Mohamed Alwaeli.,2017. Investigation of gamma radiation shielding and compressive strength properties of concrete containing scale and granulated lead-zinc slag wastes. Journal of Cleaner Production,166: 2, 157-162OSAMU KONTANİ, YOSHİKAZU ICHİKAWA, AKİHİRO ISHİZAWA, MASAYUKİ TAKİZAWA AND OSAMU SATO. (2010). Irradiation Effects on Concrete Structure International Symposium on the Ageing Management & Maintenance of Nuclear Power Plants 173-182STEVİCK, J. WANİUK, TA. PHAM, TQ. (2014). Radiation shielding structures, Patent US14348404.
- SATO SATOSHİ, MAEGAWA TOSHİO , YOSHİMATSU KENJİ , SATO KOİCHİ, NONAKA AKİRA, KOSUKE TAKAKURA, OCHİAİ KENTARO, CHİKARA KONNO. (2011). Development of a low activation concrete shielding wall by multi-layered structure for a fusion reactor. Journal of Nuclear Materials. 417:3, 1131-1134TEKİN, H.O., SİNGH,V.P., MANİCİ, T. (2017). Effects of micro-sized and nano-sized WO3 on mass attenauation coefficients of concrete by using MCNPX code. Applied Radiation and Isotopes, 121: 122-125METTLER FA, SİNCLAİR WK, ANSPAUGH L, EDİNGTON C, HARLEY JH, RİCKS RC, SELBY PB, WEBSTER EW, WYCKOFF HO. (1990). The 1986 and 1988 UNSCEAR (United Nations Scientific Committee on the Effects of Atomic Radiation) reports: findings and implications. Health Physics. 58:3, 241-250V. I. PAVLENKO, R. N. YASTREBİNSKİİ AND D. V. VORONOV. (2008). Investıgatıon of heavy radiation- shielding concrete after activation by fast neutrons and gamma radiation Journal of Engineering Physics and Thermophysics,.81: 4.
Yıl 2018,
Cilt: 4 Sayı: 2, 24 - 30, 01.11.2018
Öz
Kaynakça
- FREİDBERG, J. (2007). Plasma Physics and Fusion Energy. Cambridge university press. 25-30
- H TÜRCK, E CALZADA, B SCHİLLİNGER. (2011). EP Patent Shielding material and shielding element for shielding gamma and neutron radiation ( freepatentsonline.com.)H.L. HONDORP. (1984). Neutron and gamma radiation shielding material, structure, and process of making structure, USpatent, 4.437.013. HU HUASİ. (2011). Composite Material for Shielding Mixed Radiation, Advances in Composite Materials for Medicine and Nanotechnology, ISBN: 978-953-307-235-7,InTech,Available from:http://www.intechopen.com/books/advances-in-composite-materials-for-medicine-andnanotechnology/composite-material-for-shielding-mixed-radiationH TANİUCHİ, J SHİMOJO, Y SUGİHARA, E OWAKİ. (2007). Cement composite, concrete, concrete cask and method of manufacturing concrete US Patent US20040067328A1KİRSTEN, B MOYSİCH. RAVİ, J MENEZES. ARTHUR, M MİCHALEK. (2002). Chernobyl-related ionising radiation exposure and cancer risk: an epidemiological review.3: 269-279.MESBAHİ, A. ASGHAR, A. AZARPEYVAND, A. SHİRAZİ. (2011). Photoneutron production and back scattering in high density concretes used for radiation therapy shielding. Annals of Nuclear Energy,38: 2752-2756Mohamed Alwaeli.,2017. Investigation of gamma radiation shielding and compressive strength properties of concrete containing scale and granulated lead-zinc slag wastes. Journal of Cleaner Production,166: 2, 157-162OSAMU KONTANİ, YOSHİKAZU ICHİKAWA, AKİHİRO ISHİZAWA, MASAYUKİ TAKİZAWA AND OSAMU SATO. (2010). Irradiation Effects on Concrete Structure International Symposium on the Ageing Management & Maintenance of Nuclear Power Plants 173-182STEVİCK, J. WANİUK, TA. PHAM, TQ. (2014). Radiation shielding structures, Patent US14348404.
- SATO SATOSHİ, MAEGAWA TOSHİO , YOSHİMATSU KENJİ , SATO KOİCHİ, NONAKA AKİRA, KOSUKE TAKAKURA, OCHİAİ KENTARO, CHİKARA KONNO. (2011). Development of a low activation concrete shielding wall by multi-layered structure for a fusion reactor. Journal of Nuclear Materials. 417:3, 1131-1134TEKİN, H.O., SİNGH,V.P., MANİCİ, T. (2017). Effects of micro-sized and nano-sized WO3 on mass attenauation coefficients of concrete by using MCNPX code. Applied Radiation and Isotopes, 121: 122-125METTLER FA, SİNCLAİR WK, ANSPAUGH L, EDİNGTON C, HARLEY JH, RİCKS RC, SELBY PB, WEBSTER EW, WYCKOFF HO. (1990). The 1986 and 1988 UNSCEAR (United Nations Scientific Committee on the Effects of Atomic Radiation) reports: findings and implications. Health Physics. 58:3, 241-250V. I. PAVLENKO, R. N. YASTREBİNSKİİ AND D. V. VORONOV. (2008). Investıgatıon of heavy radiation- shielding concrete after activation by fast neutrons and gamma radiation Journal of Engineering Physics and Thermophysics,.81: 4.
Toplam 3 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 1 Kasım 2018 |
| Yayımlandığı Sayı | Yıl 2018 Cilt: 4 Sayı: 2 |