Can a fibrillar interface be stronger and tougher than a non-fibrillar one?

机译：纤维状的界面能比非纤维状的界面更坚固吗？

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摘要

Elasticity analysis and finite element simulations are carried out to study the strength of an elastic fibrillar interface. The fibrils are assumed to be in perfect contact with a rigid substrate. The adhesive interaction between the fibrils and the substrate is modelled by the Dugdale–Barenblatt model (DB). The condition for a fibrillar interface to be stronger than a non-fibrillar one is obtained for two regimes: (i) small fibril or flaw insensitive regime; (ii) large fibril or flaw sensitive regime. The transition between the two regimes is characterized by a dimensionless parameter that incorporates the material constants of the elastic fibrils and interfacial properties. The condition for a fibrillar interface to be tougher is also given. Lateral collapse is found to be detrimental to the strength and toughness of a fibrillar interface.

机译：进行弹性分析和有限元模拟以研究弹性原纤维界面的强度。假定原纤维与刚性基材完全接触。用Dugdale-Barenblatt模型（DB）对原纤维和基材之间的粘合相互作用进行建模。通过两种方案可获得原纤维界面比非原纤维界面强的条件：（i）小原纤维或对缺陷不敏感的体系；（ii）大的原纤维或对缺陷敏感的体系。两种状态之间的过渡以无量纲参数为特征，该参数包含了弹性原纤维的材料常数和界面特性。还给出了纤维状界面更坚硬的条件。发现横向塌陷不利于原纤维界面的强度和韧性。

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期刊名称 Journal of the Royal Society Interface
作者
Tian Tang; Chung-Yuen Hui; Nicholas J Glassmaker;
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作者单位

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年(卷),期 2005(2),5
年度 2005
页码 505–516
总页数 12
原文格式 PDF
正文语种
中图分类
关键词
adhesion fibrillar interface strength toughness pull-off stress;

机译：附着力;原纤维界面;强度;韧性;剥离应力;

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3. A new method to measure cellular toxicity of non-fibrillar and fibrillar Alzheimer's Abeta using yeast. [J] . Bharadwaj P, Waddington L, Varghese J, Journal of Alzheimer's disease: JAD . 2008,第2期

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机译：纤维状的界面能比非纤维状的界面更坚固吗？

Can a fibrillar interface be stronger and tougher than a non-fibrillar one?

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