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1. A comparative analysis of shielding effectiveness in glass and concrete containers

Author

ALMisned Ghada, Sen Baykal Duygu, Elshami Wiam, Susoy Gulfem, Kilic Gokhan, and Tekin Huseyin Ozan

Subjects
material properties, nuclear waste management, container, monte carlo simulations, Physics, QC1-999
Abstract

Nuclear waste control and related equipment play a vital role in safeguarding human health and the environment from the potential dangers of radioactive waste. This study addresses the critical challenge of enhancing the shielding effectiveness of container materials for nuclear waste management, with a focus on comparing the attenuation properties of glass and concrete composites. Our analysis revealed that the copper oxide-reinforced borosilicate glass container demonstrated a significant transmission factor (TF) value decrease by approximately 15% compared to steel–magnetite concrete at 1.3325 MeV, with a standard deviation of ±1.5%, indicating its lower protective characteristics. Nonetheless, it exhibited a 10% higher TF reduction compared to the cement–bitumen mix at the same energy level, with a precision error of ±1.2%. In addition, the half-value layer for this glass was determined to be 2.5 cm for 1.3325 MeV gamma rays, showing moderate shielding capacity. The study demonstrates that optimizing the oxide content in the borosilicate glass matrix significantly enhances its shielding effectiveness. This advancement in nuclear waste management materials is justified by our comprehensive evaluation, highlighting the potential of optimized glass materials to outperform traditional concrete in certain scenarios, thus contributing to the development of more effective nuclear waste containment solutions.

Published
2024
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2. Tailoring a symmetry for material properties of tellurite glasses through tungsten(vi) oxide addition: Mechanical properties and gamma-ray transmissions properties

Author

ALMisned Ghada, Khattari Ziad Y., Rabaa Elaf, Rammah Yasser S., Sen Baykal Duygu, Kilic Gokhan, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
tellurite glasses, tungsten(vi) oxide, mechanical properties, shielding, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

We report a correlation outcome for mechanical and gamma-ray transmission properties of tellurite glasses by increasing tungsten(vi) oxide concentration in glass structure. The mechanical properties as well as Poisson’s ratio (σ) of the studied glasses are estimated by applying Makishima–Mackenzie model. Gamma-ray attenuation properties using various fundamental parameters are determined in 0.015–15 MeV energy range. Poisson’s ratio (σ) decreased from 0.43017 to 0.42711, while all elastic moduli increased linearly with the molar increment of either [WO3] or [TeO2] in the molecular structure of the glass network. Moreover, gamma-ray attenuation properties are enhanced as a function of increasing WO3 substitution amount from 30 to 50% mol in the glass structure. Half-value layer values at 15 MeV are found to be between 2.648 and 2.8614 cm. I4 samples with a composition of 20TeO2–50WO3–30GdF3 and density of 6.0530 g/cm3 was found to have superior material properties in terms of elastic and gamma-ray attenuation properties. It can be concluded that maximized WO3 contribution into the tellurite glasses may be considered as a critical tool in terms of establishing a symmetry between mechanical and gamma-ray attenuation properties for high-density tellurite glasses for their potential utilization in nuclear waste management, radiation shielding, and radioactive source transportation purposes.

Published
2023
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3. Mechanical properties, elastic moduli, and gamma ray attenuation competencies of some TeO2–WO3–GdF3 glasses: Tailoring WO3–GdF3 substitution toward optimum behavioral state range

Author

ALMisned Ghada, Rabaa Elaf, Sen Baykal Duygu, Kavaz Esra, Ilik Erkan, Kilic Gokhan, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
mechanical properties, elastic moduli, gamma ray, wo3, glass shields, Chemistry, QD1-999
Abstract

We report the mechanical properties, elastic moduli, and gamma ray attenuation properties of some TeO2–WO3–GdF3 glasses. Using the chemical composition of the selected glasses, the dissociation energy per unit volume (G t) and the packing density (V t) were calculated. Using the G t and V t values, Young’s, Shear, Bulk, Longitudinal Modulus, and Poisson’s ratio of the glasses are calculated. Next several fundamental gamma ray attenuation properties such as linear and mass attenuation coefficients, half value layer, mean free path, effective atomic number, effective electron density, effective conductivity, exposure, and energy absorption buildup factors are calculated in 0.015–15 MeV energy range. As a consequence of WO3–GdF3 substitution, the glass densities are observed in different values. The overall gamma ray attenuation properties are found to be enhanced through WO3 addition. Moreover, the increasing WO3 incorporation into glass configuration decreases the overall elastic moduli of glasses. It can be concluded that increasing WO3 may be a useful tool for enhancing the gamma ray attenuation qualities and decreasing the elastic moduli of TeO2–WO3–GdF3 in situations where a material with versatile mechanical properties is required.

Published
2023
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4. Translocation of tungsten(vi) oxide/gadolinium(iii) fluoride in tellurite glasses towards improvement of gamma-ray attenuation features in high-density glass shields

Author

ALMisned Ghada, Rabaa Elaf, Sen Baykal Duygu, Ilik Erkan, Kilic Gokhan, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
tellurite glasses, gdf3, wo3, gamma-ray, glass shields, Chemistry, QD1-999
Abstract

This study investigates the effect of substituting tungsten(vi) oxide/gadolinium(iii) fluoride in tellurite glasses whose densities varies from 5.0879 to 5.3246 g/cm3 on gamma-ray absorption properties. A range of fundamental absorption parameters, including attenuation coefficients, half-value layer thicknesses, effective atom and electron numbers, effective conductivity, exposure, and energy absorption buildup factors, were studied for five different glass samples with varying substitution ratios. The ratio of tungsten(vi) oxide to gadolinium(iii) fluoride varied between 0 and 20 mol%, as well as the TeO2 ratio in the composition was maintained between 90 and 80 mol%. The sample with the composition of 80–20 mol% TeO2/WO3, which attained the maximum density value with 20 mol% WO3 addition, showed the highest gamma-absorption capabilities based on the obtained findings in the range of 0.015–15 MeV. In consideration of the mechanical and physical properties of WO3 in tellurite glasses, it can be concluded that WO3 incorporation is a crucial monotonic process that may be utilized to further improve the properties of glass shields.

Published
2023
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5. The impact of chemical modifications on gamma-ray attenuation properties of some WO3-reinforced tellurite glasses

Author

ALMisned Ghada, Rabaa Elaf, Sen Baykal Duygu, Ilik Erkan, Kilic Gokhan, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
tellurite glasses, wo3, glass shields, gamma-ray attenuation properties, gdf3, Chemistry, QD1-999
Abstract

We report the role of the chemical modifications on various gamma-ray attenuation properties of four different tellurite glasses reinforced through WO3. The chemical compositions and glass densities are used in terms of determining some critical attenuation properties, such as linear and mass attenuation coefficients, half value layer, and effective atomic number values. Based on the rise in density, it was determined that the maximum concentration of WO3 also resulted in a significant change in the overall gamma-ray absorption properties, when all of the study’s findings were examined. It was observed that the glass sample, in which TeO2 and WO3 were 40 mol%, had the highest density. It was found that this glass with the highest density has the highest linear attenuation coefficient and mass attenuation coefficient and the lowest half value layer among the four samples specified. This demonstrates that WO3 inclusion is a functional component that may be used in tellurium glasses and is a suitable material for situations requiring increased gamma-ray absorption properties.

Published
2023
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6. Determination of gamma-ray transmission factors of WO3–TeO2–B2O3 glasses using MCNPX Monte Carlo code for shielding and protection purposes

Author

ALMisned Ghada, Sen Baykal Duygu, Susoy Gulfem, Kilic Gokhan, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
wo3–teo2–b2o3 glasses, phy-x/psd, mcnpx, radiation shielding, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

The aim of this study is to assess the individual gamma-ray transmission factors (TFs) and some fundamental gamma-ray attenuation properties of several types of glasses based on WO3–TeO2–B2O3 glasses system. MCNPX (version 2.7.0) is used for the calculation of TFs. Other critical parameters are determined using the Phy-X/PSD program. To determine the TFs of studied glasses, several medical radioisotopes are determined along with their characteristic gamma-ray energies. The superior values for the investigated parameters are found in glass sample S6. Furthermore, the exposure build-up factor and energy absorption build-up factor values for glass sample S6 were the lowest. S6 glass sample with the chemical composition 0.03833B + 0.26075O + 0.11591Zn + 0.52783Te + 0.05718W and a density of 3.3579 g/cm3 is found to have exceptional gamma-ray attenuation qualities, according to our findings. It can be concluded that the prospective attributes of WO3-doped glass systems and associated glass compositions would be beneficial for scientific community in terms of providing a clearer view for some advanced applications of these glass types.

Published
2022
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7. Assessment of the usability conditions of Sb2O3–PbO–B2O3 glasses for shielding purposes in some medical radioisotope and a wide gamma-ray energy spectrum

Author

ALMisned Ghada, Sen Baykal Duygu, Kilic Gokhan, Susoy Gulfem, Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
sb2o3/pbo/b2o3 glasses, phy-x/psd, mcnpx, radiation shielding, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

We report some fundamental gamma-ray shielding properties and individual transmission factors (TFs) of five distinct glass samples with a nominal composition of xSb2O3·(40 − x)PbO·60B2O3·0.5CuO and (where; 0 ≤ x ≤ 40 mol%). Phy-X/PSD and MCNPX (version 2.7.0) Monte Carlo code are utilized to determine several critical parameters, such as cross-sections, attenuation coefficients, half and tenth value layers, build-up factors, and TFs. A general transmission setup is designed using basic requirements. Accordingly, TFs are evaluated for several medical radioisotopes. Next, the gamma-ray shielding parameters and TFs are assessed together in terms of providing the validity of the findings. Our results showed that there is a positive contribution of increasing Sb2O3 amount in the glass matrix owing its direct effect to the density increment as well. This positive effect on gamma-ray shielding properties is also observed for decreasing mean free path values from S1 to S5 samples. The exposure build-up factor (EBF) and energy absorption build-up factor (EABF) values, increasing the quantity of Sb2O3 supplementation, resulted in a general reduction in EBF and EABF values (i.e., from 0.5 to 40 mfp). When the quantity of Sb2O3 rises from S1 to S5, the collision rate of incoming gamma rays in glass samples increases significantly. The TF figures reveal that S5 showed the least transmission behavior across all the above-mentioned studied glass thicknesses. It can be concluded that increasing the Sb2O3 additive is a beneficial and monotonic technique, when the gamma-ray shielding qualities or TF values must be further enhanced.

Published
2022
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8. Monitoring and Analysis of Environmental Contaminants Surrounding a Historic Church

Author

Pinarbasi Isik Buse and Kilic Gokhan

Subjects
Environmental sciences, GE1-350
Abstract

In order to evaluate possible dangers to the building and its occupants, this research provides a thorough inquiry into the monitoring and analysis of environmental toxins surrounding a historic church. This case study centres on a well-known historical place where pollution threatens both local human health and conservation efforts. The study takes a multipronged strategy in identifying the origins, distribution channels, and effects of environmental pollutants by integrating laboratory data, field measurements, and historical records. Particulate matter sampling, soil analysis, and air quality evaluations are all included in field monitoring, which offers current information on pollutant concentrations and geographic distribution. In order to place the results in a larger historical and socioeconomic perspective and clarify how pollution sources and regulatory responses have changed over time, historical documents and archival research are also used. The study’s findings indicate that there may be hazards to the historic church’s structural integrity, the preservation of its cultural heritage, and public health in the area. These risks related to increased levels of certain pollutants. To sum up, this study sheds light on the intricate relationship between environmental pollutants and historic preservation, emphasizing the need for multidisciplinary approaches to effectively assess risk and develop mitigation techniques for heritage conservation initiatives.

Published
2024
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9. Diagnostic and therapeutic radioisotopes in nuclear medicine: Determination of gamma-ray transmission factors and safety competencies of high-dense and transparent glassy shields

Author

Erdemir Rabiye Uslu, Kilic Gokhan, Sen Baykal Duygu, ALMisned Ghada, Issa Shams A. M., Zakaly Hesham M. H., Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
nuclear medicine, radioisotopes, gamma-ray, mcnpx, nuclear safety, Chemistry, QD1-999
Abstract

We present the findings of an extensive examination on newly designed CdO-rich and transparent glass shields for nuclear medicine facilities in lieu of traditional and unfavorable materials, such as lead and concrete. Gamma-ray transmission factors of newly designed glass shields are determined using a variety of diagnostic, therapeutic, and research radioisotopes, including 67Ga, 57Co, 111In, 201Tl, 99mTc, 51Cr, 131I, 58Co, 137Cs, 133Ba, and 60Co. A general-purpose Monte Carlo code MCNPX (version 2.7.0) is used to determine the attenuation parameters of different material thicknesses. Next, the findings are compared using a standard concrete shielding material. The results indicate that adding more CdO to the glass composition improves the overall gamma-ray attenuation properties. As a result, among the heavy and transparent glasses developed, the C40 sample containing 40% CdO exhibited the best gamma-ray absorption properties against all radioisotopes. Furthermore, the gamma-ray absorption characteristics of this created high-density glass were shown to be better to those of a standard and heavy concrete sample. It can be concluded that the newly developed CdO-rich and transparent glass sample may be used in medical radiation fields where the radioisotopes examined are used in daily clinical and research applications.

Published
2022
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10. Calculation of NaI(Tl) detector efficiency using 226Ra, 232Th, and 40K radioisotopes: Three-phase Monte Carlo simulation study

Author

Tekin Huseyin Ozan, ALMisned Ghada, Issa Shams A. M., Zakaly Hesham M. H., Kilic Gokhan, and Ene Antoaneta

Subjects
nai(tl) detector, mcnpx, absolute detector efficiency, scintillation detectors, Chemistry, QD1-999
Abstract

Thallium-activated sodium iodide (NaI(Tl)) detectors can be used in gamma cameras, environmental radiation assessments, including radiation emission levels from nuclear reactors, and radiation analysis equipment. This three-phase investigation aimed to model a standard NaI(Tl) detector using the Monte Carlo N-Particle eXtended (MCNPX) general-purpose Monte Carlo simulation techniques. Accordingly, a standard NaI(Tl) detector was designed along with the required properties. Next a validation study of the modelled NaI(Tl) detector has been performed based on the experimental results for absolute detector efficiency values obtained from 226Ra, 232Th, and 40K radioisotopes. Our findings indicate that the obtained absolute detector efficiency values are quite close to used experimental values. Finally, we used the modelled detector for determination of mass attenuation coefficients of Ordinary concrete, Lead, Hematite-serpentine concrete, and Steel-scrap concrete at 186.1, 295.22, 351.93, 609.31, 1120.29, 1764.49, 238.63, 911.2, 2614, and 1460.83 keV gamma-ray energies. Additionally, according to our findings, mass attenuation coefficients obtained from the newly designed detector are compatible with the standard NIST (XCOM) data. To conclude, continuous optimisation procedures are strongly suggested for sophisticated Monte Carlo simulations in order to maintain a high degree of simulation reliability. As a result, it can be concluded that the validation of the simulation model is necessary using measured data. Finally, it can also be concluded that the validated detector models are effective instruments for obtaining basic gamma-ray shielding parameters such as mass attenuation coefficients.

Published
2022
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11. A detailed investigation on highly dense CuZr bulk metallic glasses for shielding purposes

Author

Tekin Huseyin Ozan, ALMisned Ghada, Susoy Gulfem, Zakaly Hesham M. H., Issa Shams A. M., Kilic Gokhan, Rammah Yasser Saad, Lakshminarayana Gandham, and Ene Antoaneta

Subjects
metallic glasses, radiation shielding, phy-x psd, buildup factors, Chemistry, QD1-999
Abstract

Gamma-ray shielding properties of eight different metallic glasses based on CuxZr100-x: x = 35 (Cu35Zr65) − 70 (Cu70Zr30) were determined using Monte Carlo simulations and Phy-X/PSD software. A typical gamma-ray transmission setup has been modeled in MCNPX Monte Carlo code. The general trend of the linear attenuation coefficients (μ) was reported as (μ)Cu35Zr65 < (μ)Cu40Zr60 < (μ)Cu45Zr55 < (μ)Cu50Zr50 < (μ)Cu55Zr45 < (μ)Cu60Zr40 < (μ)Cu65Zr35 < (μ)Cu70Zr30. In terms of half value layer (HVL) values, the Cu35Zr65 sample has the highest value (2.984 cm) and the Cu70Zr30 sample has the lowest value (2.769 cm) at 8 MeV photon energy. The mean free path (MFP) values were 4.305 and 3.995 cm for Cu35Zr65 and Cu70Zr30 samples, respectively. Generally, MFP and HVL values of the studied glasses were reported as (MFP,HVL)Cu35Zr65 > (MFP,HVL)Cu40Zr60 > (MFP,HVL)Cu45Zr55 > (MFP,HVL)Cu50Zr50 > (MFP,HVL)Cu55Zr45 > (MFP,HVL)Cu60Zr40 > (MFP,HVL)Cu65Zr35 > (MFP,HVL)Cu70Zr30 for all photon energy range. The Cu70Zr30 sample showed maximum values of both the effective conductivity (C eff) and effective electron density (N eff). In addition, the Cu70Zr30 sample has minimum exposure and energy absorption buildup factor (EBF and EABF) values at all studied gamma-ray energies. The results revealed that the Cu70Zr30 sample has superior attenuation properties among all studied samples.

Published
2022
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12. The role of Ag2O incorporation in nuclear radiation shielding behaviors of the Li2O–Pb3O4–SiO2 glass system: A multi-step characterization study

Author

ALMisned Ghada, Susoy Gulfem, Zakaly Hesham M. H., Rabaa Elaf, Kilic Gokhan, Ilik Erkan, Sen Baykal Duygu, Ene Antoaneta, and Tekin Huseyin Ozan

Subjects
lithium silicate glass, ag2o, phy-x/psd, mcnpx, radiation shielding, eabf, ebf, Chemistry, QD1-999
Abstract

We report the gamma-ray shielding properties of five different lithium silicate glasses based on the (40 − x) Li2O–10Pb3O4–50SiO2 nominal composition. Transmission factor values and some basic shielding parameters such as linear (µ) and mass attenuation coefficients (µ/ρ), half-value layer, tenth value layer, and mean free path (MFP) values of the investigated glass samples are determined in a large photon energy range. Using the G–P fitting method at various MFP values, the exposure buildup factor and energy absorption buildup factor values of the examined glasses are also calculated. Based on the findings, it can be concluded that the S5 glass specimen, which exhibits the greatest Ag2O additive and density among the various glass samples, represents a favorable choice for the purpose of shielding against gamma radiation.

Published
2023
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34. On β-titanium alloys: tailoring gamma-ray, and neutron transmission properties for nuclear and biomedical applications.

Author

AlMisned, Ghada, Baykal, Duygu Sen, Alkarrani, Hessa, Güler, Ömer, Kilic, Gokhan, Mesbahi, Asghar, and Tekin, Huseyin Ozan

Subjects
MASS attenuation coefficients, ATTENUATION coefficients, TITANIUM alloys, FAST neutrons, RADIATION shielding, RADIOTHERAPY safety, MOLYBDENUM
Abstract

This study explores the gamma-ray and neutron transmission properties of β-Titanium alloys pivotal for their performance in nuclear and biomedical applications. Utilizing the Monte Carlo N-Particle (MCNP 6.3) simulations, we analyzed a spectrum of Ti-based alloys modified with elements like molybdenum (Mo), zirconium (Zr), niobium (Nb), and hafnium (Hf) to determine their radiation attenuation properties. Key parameters such as mass and linear attenuation coefficients, half-value layers, exposure buildup factors, and fast neutron effective removal cross-section values were computed, revealing significant enhancements in attenuation with the addition of high-Z elements. Specifically, alloys like Ti50Hf50 and (TiZr)40Cu60 exhibited superior photon and fast neutron attenuation due to their high-Z constituents. For instance, Ti50Hf50 showed a mass attenuation coefficient of 0.217 cm2/g and a half-value layer of 2.97 cm at 0.1 MeV photon energy, while (TiZr)40Cu60 demonstrated similar performance with a mass attenuation coefficient of 0.198 cm2/g and a half-value layer of 3.26 cm. These alloys also exhibited effective neutron removal cross-section values of 0.115 cm−1 and 0.130 cm−1, respectively. Alloys with lower-Z elements showed less attenuation, which may be beneficial in scenarios requiring reduced radiographic contrast in biomedical applications. The MCNP outcomes were in strong agreement with standard data, affirming the accuracy of computational methods in predicting material behavior. In conclusion, tailored alloy development is crucial for improving radiation shielding and diagnostic visualization, with broader implications for patient safety and treatment efficacy. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Determination of early-stage shoot and root traits of cultivated and wild barley genotypes.

Author

ERGUN, Namuk, AKDOGAN, Guray, AYDOGAN, Sinan, BILIR, Melih, and KILIC, Gokhan

Subjects
PLANT nutrients, ROOT growth, PLANT-water relationships, CULTIVARS, AQUATIC plants, BARLEY
Abstract

Rapid shoot and root growth at the early developmental stage of barley is critical for maximising yield and access to water and plant nutrients, particularly in dryland environments. Determining genotypic variation in shoot and root traits at the early seedling stage is essential for germplasm identification. In this study, widely grown old and new barley cultivars and wild barley genotypes were grown in sand media under greenhouse conditions for four weeks. The differences in shoot and root traits between the genotypes, the broad sense heritability and the genetic parameters of these traits were determined. The genotypes showed statistically significant differences for all the traits studied except number of leaves. Old cultivars had higher shoot length, while new cultivars had higher shoot fresh and dry weight. The old cultivars, new cultivars and wild barley genotypes were characterised by root length, root fresh weight and specific root length, respectively. A high correlation was found between root weight and root volume, and it was determined that root volume was more influenced by root thickness than root length. Shoot fresh and dry weight, root fresh weight, root volume and specific root length had the highest broad sense heritability. Among the genotypes, cv. Tokak 157/37 showed potential as a donor for root length and cv. Durusu for root weight and root volume in breeding studies. [ABSTRACT FROM AUTHOR]

Published
2024
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