On the relationship between indentation hardness and modulus, and the damage resistance of biological materials

Labonte David; Lenz Anne-Kristin; Oyen Michelle L.

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On the relationship between indentation hardness and modulus, and the damage resistance of biological materials

机译：关于压痕硬度与模量之间的关系，以及生物材料的损伤阻力

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The remarkable mechanical performance of biological materials is based on intricate structure-function relationships. Nanoindentation has become the primary tool for characterising biological materials, as it allows to relate structural changes to variations in mechanical properties on small scales. However, the respective theoretical background and associated interpretation of the parameters measured via indentation derives largely from research on 'traditional' engineering materials such as metals or ceramics. Here, we discuss the functional relevance of indentation hardness in biological materials by presenting a meta-analysis of its relationship with indentation modulus. Across seven orders of magnitude, indentation hardness was directly proportional to indentation modulus. Using a lumped parameter model to deconvolute indentation hardness into components arising from reversible and irreversible deformation, we establish criteria which allow to interpret differences in indentation hardness across or within biological materials. The ratio between hardness and modulus arises as a key parameter, which is related to the ratio between irreversible and reversible deformation during indentation, the material's yield strength, and the resistance to irreversible deformation, a material property which represents the energy required to create a unit volume of purely irreversible deformation. Indentation hardness generally increases upon material dehydration, however to a larger extent than expected from accompanying changes in indentation modulus, indicating that water acts as a 'plasticiser'. A detailed discussion of the role of indentation hardness, modulus and toughness in damage control during sharp or blunt indentation yields comprehensive guidelines for a performance-based ranking of biological materials, and suggests that quasi plastic deformation is a frequent yet poorly understood damage mode, highlighting an important area of future research.

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来源
《Acta biomaterialia》 |2017年第2017期|共11页
作者
Labonte David; Lenz Anne-Kristin; Oyen Michelle L.;
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作者单位

NanoSci Ctr Dept Engn Cambridge England;

Univ Appl Sci Bremen Germany;

NanoSci Ctr Dept Engn Cambridge England;

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原文格式 PDF
正文语种 eng
中图分类普通生物学;
关键词
Structure-function relationships; Biomechanics; Wear; Hydration;

机译：结构功能关系;生物力学;穿;水合;

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机译：进一步分析基于能量的杨氏模量，标称硬度和压痕功之间的压痕关系
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机译：通过超低载荷压痕测定TiN薄膜的硬度和弹性模量

On the relationship between indentation hardness and modulus, and the damage resistance of biological materials

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