Mechanical, Durability, and Gamma Ray Shielding Characteristics of Heavyweight Concrete Containing Serpentine Aggregates and Lead Waste Slag

Abstract: Heavyweight concrete is used to prevent harmful radiation for the construction of hospital, military, and nuclear power plants and also to increase the durability for the construction of marine concrete structures. In this research, using a combination of serpentine aggregates and lead slag, the mechanical, durability, impact resistance, and shielding properties of heavyweight concrete were examined. The variables included fine and coarse serpentine aggregates, which were replaced with normal fine and coarse a… Show more

“…The shielding rate can be estimated by comparing the remaining strength of the beam ( ) with its initial strength ( ) after it passes through the thickness ( ) of the shielding sheet based on the linear attenuation coefficient ( ), as shown in Equation (2) [ 26 ]. The mass attenuation coefficient ( ) can be calculated according to Equation (3) using the linear attenuation coefficient ( ) according to the thickness ( ) of the shielding sheet [ 27 ]. To enhance the efficiency of a medical radiation-shielding sheet when a composite material is utilized, Equation (4) can be defined by considering the product of the weight and mass attenuation coefficient of each material [ 28 ].…”

Metal Particle Pencil Beam Spray-Coating Method for High-Density Polymer–Resin Composites: Evaluation of Radiation-Shielding Sheet Properties

“…The shielding rate can be estimated by comparing the remaining strength of the beam ( ) with its initial strength ( ) after it passes through the thickness ( ) of the shielding sheet based on the linear attenuation coefficient ( ), as shown in Equation (2) [ 26 ]. The mass attenuation coefficient ( ) can be calculated according to Equation (3) using the linear attenuation coefficient ( ) according to the thickness ( ) of the shielding sheet [ 27 ]. To enhance the efficiency of a medical radiation-shielding sheet when a composite material is utilized, Equation (4) can be defined by considering the product of the weight and mass attenuation coefficient of each material [ 28 ].…”

Metal Particle Pencil Beam Spray-Coating Method for High-Density Polymer–Resin Composites: Evaluation of Radiation-Shielding Sheet Properties

Development and evaluation of grit iron scale-MgO heavy density concrete for moderate-temperature radiation shielding

Development and evaluation of MgO-grit iron aggregate heavy density concrete for high temperature radiation shielding: Experimental and machine learning approach