Mechanical strength measurement of needle-shaped CaSO 4 microcrystals by a three-point bend test

A simple method for direct measurement of the mechanical strength of needle-shaped microcrystals of calcium sulfate, CaSO 4 , is proposed. The microcrystals, with a length from 30 to 50 μm and transverse dimensions from 1 to 3 μm, can act as reinforcing filler in various structural and building comp...

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Bibliographic Details
Published in:Measurement science & technology 2024-05, Vol.35 (5), p.55603
Main Authors: Nikulin, I, Ivanov, O, Nikulicheva, T, Mishunin, M, Vyugin, A, Alfimova, N, Vyazmin, V, Saenko, M
Format: Article
Language:English
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Summary:A simple method for direct measurement of the mechanical strength of needle-shaped microcrystals of calcium sulfate, CaSO 4 , is proposed. The microcrystals, with a length from 30 to 50 μm and transverse dimensions from 1 to 3 μm, can act as reinforcing filler in various structural and building composites to improve their mechanical properties. The method is based on a three-point bend test, adapted to microscopic objects. The CaSO 4 microcrystals were placed on a substrate, which was a twill-weave filter mesh consisting of intertwined steel fibers with diameter of ∼25 μm. Due to the twill weave, the mesh surface is characterized by a periodic distribution of protrusions and depressions. The protrusions act as supports for the placing of microcrystals, and the depressions provide the possibility of deformation and destruction of microcrystals under the action of an increasing vertically acting force, which is applied to the microcrystal through the indenter of the dynamic ultra-micro hardness tester. The moment of destruction of the microcrystals is observed to be dependent on the force on the displacement of the indenter. The measured values of the mechanical strength of CaSO 4 microcrystals varied in a range from ∼3.5 to ∼6.0 GPa. The experimental strength values are in good agreement with the values obtained from the results of numerical analysis of the stressed state formed in the volume of CaSO 4 microcrystals during the three-point bend test.
ISSN:0957-0233
1361-6501
DOI:10.1088/1361-6501/ad26cc