Investigation of neutron shielding properties depending on number of boron atoms for colemanite, ulexite and tincal ores by experiments and FLUKA Monte Carlo simulations

Korkut, Turgay; Karabulut, Abdülhalik; Budak, G.; Aygün, Bünyamin; Gençel, Osman; Hançerlioğulları, Aybaba

doi:10.1016/j.apradiso.2011.09.006

Cited by 81 publications

(24 citation statements)

References 21 publications

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“…After dose transmission values were obtained, we applied (2) to calculate neutron total macroscopic cross sections, Σ for each samples [17][18][19][20][21]:…”

Section: Neutron Dose Transmission Experimentsmentioning

confidence: 99%

Neutron Radiation Tests about FeCr Slag and Natural Zeolite Loaded Brick Samples

Çay

Sütçü

Gençel

et al. 2014

Science and Technology of Nuclear Installations

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Neutron shielding performances of new brick samples are investigated. Brick samples including 10, 20, and 30 percentages of ferrochromium slag (FeCr waste) and natural zeolite are prepared and mechanical properties are obtained. Total macroscopic cross sections are calculated by using results of 4.5 MeV neutron transmission experiments. As a result, neutron shielding capacity of brick samples increases with increasing FeCr slag and natural zeolite percentages. This information could be useful in the area of neutron shielding.

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“…After dose transmission values were obtained, we applied (2) to calculate neutron total macroscopic cross sections, Σ for each samples [17][18][19][20][21]:…”

Section: Neutron Dose Transmission Experimentsmentioning

confidence: 99%

Neutron Radiation Tests about FeCr Slag and Natural Zeolite Loaded Brick Samples

Çay

Sütçü

Gençel

et al. 2014

Science and Technology of Nuclear Installations

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“…The use of colemanite concrete proved to be an easier and more effective solution than distributing gamma shields (e.g. lead blocks) within neutron absorbing materials, such as paraffin [22][23]. In presence of high-energy gamma-and X-ray sources, the lower atomic number of elements constituting colemanite concrete represents a further advantage with respect to lead shields, in particular in the pair production and Compton scattering regions [17,24].…”

Section: Introductionmentioning

confidence: 99%

Thermal stability and high-temperature behavior of the natural borate colemanite: An aggregate in radiation-shielding concretes

Lotti

Comboni

Gigli

et al. 2019

Construction and Building Materials

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Colemanite is a natural borate that can be used as an aggregate in neutron-radiation shielding concretes. In this study, we report its thermal behavior, up to 500°C, by describing: 1) its dehydration mechanisms and 2) its thermo-elastic parameters. The thermal expansion of colemanite is significantly anisotropic. The refined volume thermal expansion coefficient at ambient conditions is: V0 = 4.50(10)10-5 K-1. The loss of structural H2O occurs at least from ~ 240 °C and at T > 325 °C, an irreversible amorphization occurs, followed by a complete dehydration. The potential implications on the use of colemanite as concrete-aggregate are discussed.

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“…Kase et al (2003) researched shielding properties of concrete samples comprise of about 80 percent by weight of oxygen and silicon. There are also some further studies on neutron-shielding properties of different materials such as polymer (Sundar et al, 1996;Harrison et al, 2008), ore (Korkut et al, 2012;Okuno, 2005) and paraffin wax (Ghassoun and Senhou, 2012). Today, gamma radiation is used in many different fields such as medical diagnosis, nuclear medicine, nuclear industry, radiation technology, scientific researches etc.…”

Section: Introductionmentioning

confidence: 98%

Neutron shielding qualities and gamma ray buildup factors of concretes containing limonite ore

Oto

Yıldız

Korkut

et al. 2015

Nuclear Engineering and Design

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Investigation of neutron shielding properties depending on number of boron atoms for colemanite, ulexite and tincal ores by experiments and FLUKA Monte Carlo simulations

Cited by 81 publications

References 21 publications

Neutron Radiation Tests about FeCr Slag and Natural Zeolite Loaded Brick Samples

Neutron Radiation Tests about FeCr Slag and Natural Zeolite Loaded Brick Samples

Thermal stability and high-temperature behavior of the natural borate colemanite: An aggregate in radiation-shielding concretes

Neutron shielding qualities and gamma ray buildup factors of concretes containing limonite ore

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