A constitutive scaling law for shear rupture that is inherently scale-dependent, and physical scaling of nucleation time to critical point

Ohnaka M

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A constitutive scaling law for shear rupture that is inherently scale-dependent, and physical scaling of nucleation time to critical point

机译：剪切断裂的本构比例定律，其本质上取决于比例，成核时间到临界点的物理比例

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摘要

It is shown that the rupture nucleation length increases up to the critical length with time according to a power law, and that the accelerating phase of nucleation leading up to the critical point is scaled in the framework of fracture mechanics based on slip-dependent constitutive formulation. Geometric irregularity of the rupturing surfaces plays a fundamental role in scaling the accelerating phase of nucleation up to the critical point. A power-law scaling relation between the rupture growth length and the nucleation time to the critical point is derived from theoretical consideration based on laboratory data. This power-law scaling relation has no singularity, and hence it may be useful for the predictive purpose of an imminent, large earthquake.

机译：结果表明，根据幂定律，破裂成核长度随时间增加到临界长度，并且在基于破裂滑动的本构公式的断裂力学框架内，达到临界点的成核加速阶段被缩放。。破裂表面的几何不规则性在成核的加速阶段扩展到临界点时起着基本作用。基于实验室数据的理论考虑，得出了断裂增长长度与成核时间到临界点之间的幂律定标关系。此幂律比例关系没有奇异性，因此对于即将发生的大地震的预测目的可能是有用的。

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《Pure and Applied Geophysics》 |2004年第10期|共15页
作者
Ohnaka M;
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正文语种 eng
中图分类地球物理学;
关键词
inhomogeneous fault; characteristic length; accelerating phase of nucleation; power law; universal scaling relation; EARTHQUAKE RUPTURE; MOTION; PREDICTION; FAILURE; STRESS; FAULT; PROPAGATION; BARRIERS; STRAIN; MODEL;

机译：非均匀断层;特征长度;成核加速阶段;幂律;普遍尺度关系;地震破裂;运动;预测;破坏;应力;断裂;传播;障碍;应变;模型;

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专利

1. A Constitutive Scaling Law for Shear Rupture that is Inherently Scale-dependent, and Physical Scaling of Nucleation Time to Critical Point [J] . Mitiyasu Ohnaka Pure and Applied Geophysics . 2004,第9a10期

机译：固有的与尺度有关的剪切断裂本构定标定律，以及成核时间到临界点的物理定标
2. A constitutive scaling law for shear rupture that is inherently scale-dependent, and physical scaling of nucleation time to critical point [J] . Ohnaka M Pure and Applied Geophysics . 2004,第9a10期

机译：剪切断裂的本构比例定律，其本质上取决于比例，成核时间到临界点的物理比例
3. Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: A physical model of earthquake generation processes [J] . Mitiyasu Ohnaka Proceedings of the National Academy of Sciences of the United States of America . 1996,第9期

机译：剪切破裂和准静态成核到动态破裂的本构律参数的不均匀性：地震发生过程的物理模型
4. Structural State Scale-Dependent Physical Characteristics and Endurance of Cermet Composite for Cutting Metal [C] . V. E. Ovcharenko, Yu. F. Ivanov, A. A. Mohovikov, International Conference on Physical Mesomechanics of Multilevel Systems . 2014

机译：用于切割金属的结构状态尺度依赖性物理特性及金属陶瓷复合材料的耐久性
5. Scale-dependent homogenization and scaling laws in random polycrystals. [D] . Ranganathan, Shivakumar I. 2008

机译：随机多晶中与尺度相关的均化和缩放定律。
6. Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: a physical model of earthquake generation processes. [O] . M Ohnaka 1996

机译：剪切破裂和准静态成核到动态破裂的本构律参数的不均匀性：地震发生过程的物理模型。
7. Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: a physical model of earthquake generation processes. [O] . Ohnaka, M 1996

机译：剪切破裂和准静态成核到动态破裂的本构律参数的不均匀性：地震发生过程的物理模型。

A constitutive scaling law for shear rupture that is inherently scale-dependent, and physical scaling of nucleation time to critical point

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