The interaction between encapsulated Gd2O3 particles and polymeric matrix: The mechanism of fracture and X-ray attenuation properties

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This work sheds light on the relationship between the quantities of synthesized core shell Gd2O3 added to epoxy matrix and the mechanical and X-ray attenuation properties of particulate epoxy composite. Then, an optimal geometric design of non-lead based X-ray protective material with light weight per volume unit is prepared. A plateau with 28–30% increments in the value of fracture toughness (KIC) is observed with a specific addition of 0.08–0.1 volume fraction ( ? S ) of Gd2O3 particles in pure epoxy. The same quantity of particles also optimally raises the critical strain energy release rate and Young’s modulus of epoxy by approximately 22–24% and 18–25% respectively. A 16mm thick sheet of fabricated filled composite at ( ? S ) of 0.08 and 0.1 can shield greater than 95% and 99% respectively of a primary X-ray beam in the range of 60–120kVp. At the same X-ray attenuation (99% attenuation), the specimen is 7, 8.5 and 16 times lighter than wood, glass, and concrete, respectively. At 0.5mm Pb-equivalence, the composite also has 4.5–19.4% less weight per unit area than current commercial non-lead products.

» Author: Ly B.T. La, Christopher Leatherday, Peng Qin, Yee-Kwong Leong, Kevin J. Hayward, Bin Jiang, Lai-Chang Zhang

» Reference: Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 535

» Publication Date: 20/12/2017

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