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W4365452425 endingPage "345" @default.
W4365452425 startingPage "332" @default.
W4365452425 abstract "The hierarchical design of bio-based nanostructured materials such as bone enables them to combine unique structure-mechanical properties. As one of its main components, water plays an important role in bone's material multiscale mechanical interplay. However, its influence has not been quantified at the length-scale of a mineralised collagen fibre. Here, we couple in situ micropillar compression, and simultaneous synchrotron small angle X-ray scattering (SAXS) and X-ray diffraction (XRD) with a statistical constitutive model. Since the synchrotron data contain statistical information on the nanostructure, we establish a direct connection between experiment and model to identify the rehydrated elasto-plastic micro- and nanomechanical fibre behaviour. Rehydration led to a decrease of 65%-75% in fibre yield stress and compressive strength, and 70% in stiffness with a 3x higher effect on stresses than strains. While in agreement with bone extracellular matrix, the decrease is 1.5-3x higher compared to micro-indentation and macro-compression. Hydration influences mineral more than fibril strain with the highest difference to the macroscale when comparing mineral and tissue levels. The effect of hydration seems to be strongly mediated by ultrastructural interfaces while results provide insights towards mechanical consequences of reported water-mediated structuring of bone apatite. The missing reinforcing capacity of surrounding tissue for an excised fibril array is more pronounced in wet than dry conditions, mainly related to fibril swelling. Differences leading to higher compressive strength between mineralised tissues seem not to depend on rehydration while the lack of kink bands supports the role of water as an elastic embedding influencing energy-absorption mechanisms. STATEMENT OF SIGNIFICANCE: Characterising structure-property-function relationships in hierarchical biological materials helps us to elucidate mechanisms that enable their unique properties. Experimental and computational methods can advance our understanding of their complex behaviour with the potential to inform bio-inspired material development. In this study, we close a gap for bone's fundamental mechanical building block at micro- and nanometre length scales. We establish a direct connection between experiments and simulations by coupling in situ synchrotron tests with a statistical model and quantify the behaviour of rehydrated single mineralised collagen fibres. Results suggest a high influence of hydration on structural interfaces, and the role of water as an elastic embedding by outlining important differences between wet and dry elasto-plastic properties of mineral nanocrystals, fibrils and fibres." @default.
W4365452425 created "2023-04-15" @default.
W4365452425 creator A5000965111 @default.
W4365452425 creator A5026149905 @default.
W4365452425 creator A5033756478 @default.
W4365452425 creator A5051464610 @default.
W4365452425 creator A5052345568 @default.
W4365452425 creator A5053350259 @default.
W4365452425 creator A5063642700 @default.
W4365452425 creator A5069031697 @default.
W4365452425 date "2023-07-01" @default.
W4365452425 modified "2023-10-10" @default.
W4365452425 title "The elasto-plastic nano- and microscale compressive behaviour of rehydrated mineralised collagen fibres" @default.
W4365452425 cites W1659720364 @default.
W4365452425 cites W1964716216 @default.
W4365452425 cites W1966433358 @default.
W4365452425 cites W1967619658 @default.
W4365452425 cites W1969024988 @default.
W4365452425 cites W1969293769 @default.
W4365452425 cites W1973093781 @default.
W4365452425 cites W1975310744 @default.
W4365452425 cites W1977537298 @default.
W4365452425 cites W1982381330 @default.
W4365452425 cites W1983874564 @default.
W4365452425 cites W1987613663 @default.
W4365452425 cites W1991889593 @default.
W4365452425 cites W1994669017 @default.
W4365452425 cites W1995272666 @default.
W4365452425 cites W1995373789 @default.
W4365452425 cites W1998881446 @default.
W4365452425 cites W2001957914 @default.
W4365452425 cites W2004407999 @default.
W4365452425 cites W2006629115 @default.
W4365452425 cites W2006994431 @default.
W4365452425 cites W2007610014 @default.
W4365452425 cites W2010370140 @default.
W4365452425 cites W2017963681 @default.
W4365452425 cites W2020641822 @default.
W4365452425 cites W2020913954 @default.
W4365452425 cites W2022591338 @default.
W4365452425 cites W2022979060 @default.
W4365452425 cites W2023339600 @default.
W4365452425 cites W2025530920 @default.
W4365452425 cites W2027199936 @default.
W4365452425 cites W2027330415 @default.
W4365452425 cites W2029778367 @default.
W4365452425 cites W2031622778 @default.
W4365452425 cites W2031861844 @default.
W4365452425 cites W2033882626 @default.
W4365452425 cites W2034004613 @default.
W4365452425 cites W2034569148 @default.
W4365452425 cites W2038430284 @default.
W4365452425 cites W2039581128 @default.
W4365452425 cites W2039772156 @default.
W4365452425 cites W2042070121 @default.
W4365452425 cites W2042591533 @default.
W4365452425 cites W2049651689 @default.
W4365452425 cites W2057763179 @default.
W4365452425 cites W2059088506 @default.
W4365452425 cites W2062148240 @default.
W4365452425 cites W2062717342 @default.
W4365452425 cites W2063247426 @default.
W4365452425 cites W2066646366 @default.
W4365452425 cites W2069704324 @default.
W4365452425 cites W2072792003 @default.
W4365452425 cites W2074538126 @default.
W4365452425 cites W2076352514 @default.
W4365452425 cites W2079508597 @default.
W4365452425 cites W2085035891 @default.
W4365452425 cites W2085053537 @default.
W4365452425 cites W2090553875 @default.
W4365452425 cites W2090921914 @default.
W4365452425 cites W2092024735 @default.
W4365452425 cites W2092362745 @default.
W4365452425 cites W2095150495 @default.
W4365452425 cites W2095879284 @default.
W4365452425 cites W2096342916 @default.
W4365452425 cites W2099885273 @default.
W4365452425 cites W2102719653 @default.
W4365452425 cites W2104235213 @default.
W4365452425 cites W2109372280 @default.
W4365452425 cites W2110508763 @default.
W4365452425 cites W2114748294 @default.
W4365452425 cites W2117729857 @default.
W4365452425 cites W2126507399 @default.
W4365452425 cites W2129129481 @default.
W4365452425 cites W2130971715 @default.
W4365452425 cites W2134148860 @default.
W4365452425 cites W2137089455 @default.
W4365452425 cites W2139749222 @default.
W4365452425 cites W2150238384 @default.
W4365452425 cites W2155594802 @default.
W4365452425 cites W2156893180 @default.
W4365452425 cites W2163856848 @default.
W4365452425 cites W2165233301 @default.
W4365452425 cites W2166903447 @default.
W4365452425 cites W2168745915 @default.
W4365452425 cites W2181096351 @default.