Scleractinian corals are a major source of biogenic calcium carbonate, yet the relationship between their skeletal microstructure and mechanical properties has been scarcely studied. In this work, the skeletons of two coral species: solitary Balanophyllia europaea and colonial Stylophora pistillata, were investigated by nanoindentation. The hardness HIT and Young’s modulus EIT were determined from the analysis of several load–depth data on two perpendicular sections of the skeletons: longitudinal (parallel to the main growth axis) and transverse. Within the experimental and statistical uncertainty, the average values of the mechanical parameters are independent on the section’s orientation. The hydration state of the skeletons did not affect the mechanical properties. The measured values, EIT in the 76–77 GPa range, andHIT in the 4.9–5.1 GPa range, are close to the ones expected for polycrystalline pure aragonite. Notably, a small difference in HIT is observed between the species. Different from corals, single-crystal aragonite and the nacreous layer of the seashell Atrina rigida exhibit clearly orientation-dependent mechanical properties. The homogeneous and isotropic mechanical behaviour of the coral skeletons at the microscale is correlated with the microstructure, observed by electron microscopy and atomic force microscopy, and with the X-ray diffraction patterns of the longitudinal and transverse sections.

Pasquini L, Molinari A, Fantazzini P, Dauphen Y, Cuif J-P, Levy O, et al. (2015). Isotropic microscale mechanical properties of coral skeletons. JOURNAL OF THE ROYAL SOCIETY INTERFACE, 12, 20150168-1-20150168-9 [10.1098/rsif.2015.0168].

Isotropic microscale mechanical properties of coral skeletons

PASQUINI, LUCA;FANTAZZINI, PAOLA;CAROSELLI, ERIK;PRADA, FIORELLA;GOFFREDO, STEFANO;DI GIOSIA, MATTEO;REGGI, MICHELA;FALINI, GIUSEPPE
2015

Abstract

Scleractinian corals are a major source of biogenic calcium carbonate, yet the relationship between their skeletal microstructure and mechanical properties has been scarcely studied. In this work, the skeletons of two coral species: solitary Balanophyllia europaea and colonial Stylophora pistillata, were investigated by nanoindentation. The hardness HIT and Young’s modulus EIT were determined from the analysis of several load–depth data on two perpendicular sections of the skeletons: longitudinal (parallel to the main growth axis) and transverse. Within the experimental and statistical uncertainty, the average values of the mechanical parameters are independent on the section’s orientation. The hydration state of the skeletons did not affect the mechanical properties. The measured values, EIT in the 76–77 GPa range, andHIT in the 4.9–5.1 GPa range, are close to the ones expected for polycrystalline pure aragonite. Notably, a small difference in HIT is observed between the species. Different from corals, single-crystal aragonite and the nacreous layer of the seashell Atrina rigida exhibit clearly orientation-dependent mechanical properties. The homogeneous and isotropic mechanical behaviour of the coral skeletons at the microscale is correlated with the microstructure, observed by electron microscopy and atomic force microscopy, and with the X-ray diffraction patterns of the longitudinal and transverse sections.
2015
Pasquini L, Molinari A, Fantazzini P, Dauphen Y, Cuif J-P, Levy O, et al. (2015). Isotropic microscale mechanical properties of coral skeletons. JOURNAL OF THE ROYAL SOCIETY INTERFACE, 12, 20150168-1-20150168-9 [10.1098/rsif.2015.0168].
Pasquini L; Molinari A; Fantazzini P; Dauphen Y; Cuif J-P; Levy O; Dubinsky Z; Caroselli E; Prada F; Goffredo S; Di Giosia M; Reggi M; Falini G...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/488567
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