Dynamics of Drying in Phenolically Tanned Materials

Dynamics of Drying in Phenolically Tanned Materials

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摘要 The cuticle of a maggot goes through a mechanical transition when it dries, increasing in stiffness by about an order of magnitude (e.g. from 0.5 GPa to 5 GPa) as the water content drops from about 1 g/g (weight of water per unit dry weight) to 0.4 g/g. Thus stiffness represents the loss of freezable water and is more or less diagnostic of a material stabilized by hydrogen bonds. Further loss in water results in a smaller increase in stiffness. In natural systems the water content is controlled by the addition of phenolic residues, resulting in tanning or sclerotisation, which drives the matrix components towards co-operative interaction and makes the material permanently waterproof. The cuticle of a maggot goes through a mechanical transition when it dries, increasing in stiffness by about an order of magnitude (e.g. from 0.5 GPa to 5 GPa) as the water content drops from about 1 g/g (weight of water per unit dry weight) to 0.4 g/g. Thus stiffness represents the loss of freezable water and is more or less diagnostic of a material stabilized by hydrogen bonds. Further loss in water results in a smaller increase in stiffness. In natural systems the water content is controlled by the addition of phenolic residues, resulting in tanning or sclerotisation, which drives the matrix components towards co-operative interaction and makes the material permanently waterproof.

作者 Julian F.V.Vincent

机构地区 Centre for Biomimetic and Natural Technologies

出处《Journal of Bionic Engineering》 SCIE EI CSCD 2004年第1期4-8,共5页 仿生工程学报（英文版）

关键词 hydrogen bonding water content mechanical transition beta proteins tanning cuticle hydrogen bonding, water content,mechanical transition, beta proteins, tanning,cuticle

分类号 TB30 [一般工业技术—材料科学与工程]

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Dynamics of Drying in Phenolically Tanned Materials

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