Characterisation of micro-sized and nano-sized tungsten oxide-epoxy composites for radiation shielding of diagnostic X-rays

摘要

Characteristics of X-ray transmissions were investigated for epoxy composites filled with 2-10 vol% WO_3 loadings using synchrotron X-ray absorption spectroscopy (XAS) at 10-40 keV. The results obtainedwere used to determine the equivalent X-ray energies for the operating X-ray tube voltages of mammography and radiology machines. The results confirmed the superior attenuation ability of nano-sizedWO_3-epoxy composites in the energy range of 10-25 keV when compared to their micro-sized counterparts. However, at higher synchrotron radiation energies (i.e., 30-40 keV), the X-ray transmission characteristicswere similarwith no apparent size effect for both nano-sized and micro-sizedWO_3-epoxy composites. The equivalent X-ray energies for the operating Xray tube voltages of the mammography unit (25-49 kV) were in the range of 15-25 keV. Similarly, for a radiology unit operating at 40-60 kV, the equivalent energy range was 25-40 keV, and for operating voltages greater than 60 kV (i.e., 70-100 kV), the equivalent energywas in excess of 40 keV. The mechanical properties of epoxy composites increased initially with an increase in the filler loading but a further increase in the WO_3 loading resulted in deterioration of flexural strength, modulus and hardness.