Radiation shielding performance of heavy-weight concrete mixtures.

• Nineteen heavy-weight concrete mixes evaluated for radiation shielding performance. • Density of concrete affected shielding performance regardless of aggregate types. • The developed equation can be used to calculate required thickness for shielding. In the present work, an experimental investigation was carried out to evaluate the radiation shielding performance of heavy-weight concrete mixtures prepared using different high-density coarse aggregates that included steel slag, steel shot, and iron ore. Normal-weight limestone aggregate was also used in control mixture as well as for partial replacement of the high-density aggregates in some of the heavy-weight concrete mixtures. Considering different combinations of the normal and high-density coarse aggregates and keeping cement content and water/cement ratio constant, a total of nineteen heavy-weight concrete mixtures were prepared and tested for their dry-density, compressive strength, and nuclear radiation response through gamma-ray intensity measurement. Except the control mixture containing normal-weight limestone aggregate, all eighteen heavy-weight concrete mixtures achieved 28-day dry unit weight in the acceptable range of 2600–3563 kg/m3. The compressive strength of the mixtures varied in the range of 26–45 MPa, all satisfying the requirements of a structural concrete. Radiation shielding performance was influenced by the unit weight of the concrete mixtures regardless of the type of coarse aggregates and the strength class of the concrete mixture. Based on the experimental data, correlations between indicator of the radiation shielding performance and unit-weight of concrete was obtained with a high degree of fit. [ABSTRACT FROM AUTHOR]