Size-Scale Effects on Strength, Friction and Fracture Energy of Faults: A Unified Interpretation According to Fractal Geometry

A. Carpinteri; M. Paggi

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Size-Scale Effects on Strength, Friction and Fracture Energy of Faults: A Unified Interpretation According to Fractal Geometry

机译：断层强度，摩擦力和断裂能的尺度效应：基于分形几何的统一解释

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Experimental results clearly indicate that large faults involved in earthquakes possess low strength, low friction coefficient and high fracture energy, in comparison with data obtained from small scale laboratory tests on rock samples. The reasons for such an unexpected anomalous behaviour have been the subject of several studies in the past and are still under debate in the Scientific Community. In this paper we propose a unifying interpretation of these size-scale effects on the basis of fractal geometry, which represents the proper mathematical framework for the analysis of multi-scale properties of rough surfaces in contact. A rather good agreement between the proposed scaling laws and the experimental data ranging from the laboratory scale up to the planetary scale typical of natural faults is achieved.

机译：实验结果清楚地表明，与从岩石样品的小型实验室测试获得的数据相比，与地震有关的大型断层具有低强度，低摩擦系数和高断裂能。过去，这种意外异常行为的原因一直是数项研究的主题，并且在科学界仍在争论中。在本文中，我们提出了基于分形几何学的这些尺寸尺度效应的统一解释，它代表了分析接触的粗糙表面的多尺度特性的正确数学框架。拟议的定标律与从实验室规模到自然断层典型的行星规模的实验数据之间达成了相当好的协议。

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《Rock Mechanics and Rock Engineering 》 |2008年第5期| 共12页
作者
A. Carpinteri; M. Paggi;
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正文语种 eng
中图分类地质力学 ;
关键词
Faults; friction; size-scale effects; fractals; geomechanics; contact mechanics;

机译：断层;摩擦;尺寸尺度效应;分形;地质力学;接触力学;

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1. Size-Scale Effects on Strength, Friction and Fracture Energy of Faults: A Unified Interpretation According to Fractal Geometry [J] . A. Carpinteri, M. Paggi Rock Mechanics and Rock Engineering . 2008 ,第5期

机译：断层强度，摩擦力和断裂能的尺度效应：基于分形几何的统一解释
2. Size-Scale Effects on Strength, Friction and Fracture Energy of Faults: A Unified Interpretation According to Fractal Geometry [J] . A. Carpinteri, M. Paggi Rock Mechanics and Rock Engineering . 2008 ,第5期

机译：断层强度，摩擦力和断裂能的尺度效应：基于分形几何的统一解释
3. A fractal interpretation of size-scale effects on strength,friction and fracture energy of faults [J] . Alberto Carpinteri, Marco Paggi Chaos, Solitons and Fractals: Applications in Science and Engineering: An Interdisciplinary Journal of Nonlinear Science . 2009 ,第2期

机译：分形尺度对断层强度，摩擦力和断裂能的影响
4. Chapter 5 Size-Scale Effects on the Friction Coefficient: From Weak Faults at the Planetary Scale to Superlubricity at the Nanoscale [C] . Marco Paggi, Alberto Carpinteri Contact Mechanics International Symposium . 2013

机译：第五章对摩擦系数的尺寸尺度效应：从行星尺度的弱故障到纳米级的超级润滑性
5. Determining the role of fractal geometry and fracture energy in brittle bilayer materials. [D] . Smith, Robert Lee. 2009

机译：确定分形几何形状和断裂能在脆性双层材料中的作用。
6. Diagenetic and shear-induced transitions of frictional strength of carbon-bearing faults and their implications for earthquake rupture dynamics in subduction zones [O] . Shunya Kaneki, Tetsuro Hirono -1

机译：含碳断层摩擦强度的成岩作用和剪切作用过渡及其对俯冲带地震破裂动力学的影响
7. A Multi-Scale Numerical Method for the Study of Size-Scale Effects in Ductile Fracture [O] . Mauro Corrado, Marco Paggi, Alberto Carpinteri 2014

机译：延性断裂尺寸效应研究的多尺度数值方法

Size-Scale Effects on Strength, Friction and Fracture Energy of Faults: A Unified Interpretation According to Fractal Geometry

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