Barbhuiya, S.Das, B.B.Norman, P.Qureshi, T.2026-02-032025Structural Concrete, 2025, 26, 2, pp. 1809-185514644177https://doi.org/10.1002/suco.202400519https://idr.nitk.ac.in/handle/123456789/20348This review paper provides a comprehensive analysis of radiation shielding concrete, covering its properties, design, evaluation, and applications. It begins with an introduction, stating the objective and scope. The paper explores radiation shielding basics, including ionizing radiation, shielding principles, and materials used for shielding. Concrete's properties relevant to shielding, radiation attenuation mechanisms, and factors affecting its efficiency are discussed. Different types of radiation shielding concrete are examined, along with their applications. The design and formulation of shielding concrete, including mix proportions, optimization techniques, and quality control, are presented. Evaluation methods and standards are discussed. Lastly, challenges, future directions, and emerging technologies are outlined. This review paper serves as a valuable resource for professionals involved in radiation shielding. The review on radiation shielding concrete highlighted its effectiveness in attenuating ionizing radiation, emphasizing material composition, density, and thickness as key design factors. Evaluation methods, such as gamma spectroscopy and Monte Carlo simulations, are discussed, demonstrating its versatile applications in nuclear facilities, healthcare, and space exploration. © 2024 The Author(s). Structural Concrete published by John Wiley & Sons Ltd on behalf of International Federation for Structural Concrete.Concrete buildingsConcrete mixersConcretesElectromagnetic wave attenuationGamma ray spectrometersRadiation hazardsRadiation shieldingAttenuation mechanismConcrete propertiesDesign applicationsDesign evaluationGamma spectroscopyMonte Carlo's simulationOptimization techniquesProperties designRadiation shielding concreteShielding concreteSpace research