Original Research

The Use of Local Alternative Materials as Structural Shielding for Diagnostic Radiological Facilities

Authors
  • Schimze Sagon (University of Guyana)
  • Petal Padmini Surujpaul (University of Guyana, Georgetown Public Hospital)

Abstract

Purpose: X-ray radiation shielding is based on the principle of attenuation, which is the ability to reduce the initial intensity of radiation through a barrier material. The research aimed to obtain the most efficient shielding material to attenuate ionizing radiation in the diagnostic range (0-150 kV) using locally available clay soil, lateritic soil and white sand combined with Portland limestone cement.

Methods and materials: A mix design was used to determine the mix ratio that would attain the highest density and compressive strength, hence more suitable for radiation protection. Sample blocks of dimensions 20 cm x 15 cm and thicknesses 4 cm, 8 cm, 12 cm, 16 cm and 20 cm were prepared. Using a RayMax Medical Corp conventional x-ray machine and RaySafe X2 dosimeter, in narrow beam geometry, kerma readings were obtained at energy output of 46.5 kVp, 65.3 kVp, 84.1 kVp, 102.5 kVp, 120.9 kVp and 134.5 kVp without the presence of any block, then with blocks in the path of the beam. The percent transmission for each block type and thickness at the measured X-ray energy was calculated.

Results: Blocks that preserved a lower cement to aggregate ratio attained a higher density and compressive strength. Percentage transmission was reduced from 100 % to below 10 % with the presence of each block thickness.

Conclusion: Blocks composed of cement and white sand and cement and clay soil, with mix ratios of 1:3 for the former and 1:3 and 1:4 for the latter, can be used as structural shielding. Of the mixtures, cement and white sand attained the highest density and compressive strength, however, cement and clay soil proved to be most stable, both in its engineering properties and attenuating ability

Keywords: Alternative materials, lateritic soil, clay soil, structural shielding, radiation shielding, radiation protection

How to Cite:

Sagon, S. & Surujpaul, P. P., (2020) “The Use of Local Alternative Materials as Structural Shielding for Diagnostic Radiological Facilities”, Journal of Global Radiology 6(1): 1. doi: https://doi.org/10.7191/jgr.2020.1050

Rights: © 2020 Sagon and Surujpaul. This open access article is distributed under a Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/).

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Published on
05 Feb 2020