Comparisons of Microstructures and Hardness Distribution between Clinocardium Californiense and Veined Rapa Whelk Shells

Hong Mei Ji; Yun Jiang; Wen Yang; Guang Ping Zhang; Xiao Wu Li

doi:10.4028/www.scientific.net/KEM.544.295

Paper Titles

Preparation and Mechanical Properties of a Novel Biomedical Magnesium-Based Scaffold
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Effect of Nb₂O₅/La₂O₃ Additions on Mechanical Properties of Al₂O₃ Ceramics Prepared by Microwave Sintering
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Effects of Calcium Hexaluminate Addition on the Mechanical Properties of Zirconia-Toughened-Alumina
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Study on Mechanical Properties and Toughening Mechanism of MWCNTs/Ti(C, N) Cermets-Based Composites
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Comparisons of Microstructures and Hardness Distribution between Clinocardium Californiense and Veined Rapa Whelk Shells
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Effects on Cold Modulus of Rupture and Cold Crushing Strength of One Low Cement Refractory Castable (LCRC)
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The Influence of Steel Cover Thickness on Ballistic Performance of Confined TiC-TiB₂ Ceramic Tiles against the Impact of Long-Rod Tungsten Alloy Penetrator of 1.4 km · s^-1
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Ballistic Performance of TiC-TiB₂ Composite Armour under the Impact of Long-Rod Tungsten Alloy Projectiles of 1.4 km · s^-1
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Properties Analysis of Corundum Castables and Corundum MA Spinel Castables
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Comparisons of Microstructures and Hardness Distribution between Clinocardium Californiense and Veined Rapa Whelk Shells

Abstract:

Abstract. Microstructures, phase compositions and microhardness distribution of two kinds of natural biological materials called Burnt-end Ark and Veined rapa whelk shells were studied and discussed for comparisons. It was found that the both shells present a hierarchical structure comprising three layers in thickness, i.e., inner, middle and outer layers. The inner and middle layers of the two kinds of shells exhibit cross-lamellar structures with somewhat of differences in the morphology and dimension. The outer layer presents a porous blocky structure for Burnt-end Ark shell and a layered structure for Veined rapa whelk shell. The X-ray diffraction (XRD) analyses show that all the layers of Burnt-end Ark shell as well as the inner and middle layers of Veined rapa whelk consist of crystalline aragonite CaCO3, while the out layer of Veined rapa whelk consists of crystalline calcite CaCO3. The microhardness measurements on the cross sections perpendicular to the growth lines of the shells demonstrate that the hardness of the both shells decreases gradually from the inner layer to the outer layer, strongly depending upon their microstructures.