LETTERS IN FRACTURE AND MICROMECHANICS QUANTITATIVE RELATION BETWEEN ACOUSTIC EMISSION SIGNAL AMPLITUDE AND ARRESTED CLEAVAGE MICROCRACK SIZE

Erling Ostby; Christian Thaulow; Odd M. Akselsen

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LETTERS IN FRACTURE AND MICROMECHANICS QUANTITATIVE RELATION BETWEEN ACOUSTIC EMISSION SIGNAL AMPLITUDE AND ARRESTED CLEAVAGE MICROCRACK SIZE

机译：声发射信号幅度和被捕的解理微裂纹尺寸之间的骨折和微机械定量关系中的字母

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摘要

The possibility of obtaining a quantitative relation between acoustic emission (AE) signal amplitudes and arrested cleavage microcrack sizes in the partially transformed coarse grained heat affected zone of a structural steels is explored. Interrupted fracture mechanics tests are performed, and the size of measured arrested cleavage microcracks are compared with recoded AE signal amplitudes. It is shown that the experimentally measured relationship between the arrested microcrack size and AE amplitude closely follows a theoretical relation derived by Lysak (1996). The results may provide quantitative data as input to further development of micromechanically based cleavage fracture models for steels.

机译：探讨了在结构钢的部分变换的粗粒热影响区中获得声发射（AE）信号幅度和停留的切割微裂纹尺寸的定量关系的可能性。进行中断的断裂力学试验，并将测量的被阻止的裂解微裂纹的尺寸与recoded AE信号幅度进行比较。结果表明，被捕微裂纹尺寸和AE幅度之间的实验测量关系紧密地遵循Lysak（1996）的理论关系。结果可以提供定量数据，作为进一步发展钢的微机械裂解骨折模型的进一步发展。

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来源
《International Journal of Fracture》 |2012年第1期|共8页
作者
Erling Ostby; Christian Thaulow; Odd M. Akselsen;
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作者单位

SINTEF Materials and Chemistry 7465 Trondheim Norway;

Norwegian University of Science and Technology 7491 Trondheim Norway;

SINTEF Materials and Chemistry 7465 Trondheim Norway;

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原文格式 PDF
正文语种 eng
中图分类工程力学;固体力学;
关键词
steels; acoustic methods; cleavage fracture; microcrack arrest.;

机译：钢;声学方法;切割骨折;微裂纹逮捕。;

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1. LETTERS IN FRACTURE AND MICROMECHANICS QUANTITATIVE RELATION BETWEEN ACOUSTIC EMISSION SIGNAL AMPLITUDE AND ARRESTED CLEAVAGE MICROCRACK SIZE [J] . Erling Ostby, Christian Thaulow, Odd M. Akselsen International Journal of Fracture . 2012,第1期

机译：声发射信号幅度和被捕的解理微裂纹尺寸之间的骨折和微机械定量关系中的字母
2. Relation between the Amplitude of Acoustic Emission of an Ensemble of Microflaws and the Deformation Rate: Reconstruction of the Number of AE Events during a Change in the Dynamic Range of Detected Signals [J] . S. I. Builo Russian Journal of Nondestructive Testing . 2007,第3期

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3. AMPLITUDE-FREQUENCY ANALYSIS OF SIGNALS OF ACOUSTIC EMISSION FROM GRANITE FRACTURED AT ELEVATED TEMPERATURES [J] . I. P. Shcherbakov, A. E. Chmel Journal of engineering physics and thermophysics . 2015,第3期

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4. Monitoring of Cleavage Microcrack Arrest in Weld Thermal Simulated Microstructures by Means of Acoustic Emission [C] . Erling ?stby, Odd Magne Akselsen, Tore Andre Kristensen International offshore and polar engineering conference . 2013

机译：通过声发射监测焊接热模拟微观结构中的劈裂微裂纹
5. Quantitative Analysis Of Acoustic Emission From Rock Fracture Experiments. [D] . Goodfellow, Sebastian David. 2015

机译：岩石断裂实验中的声发射定量分析。
6. Noise Reduction Method of Underwater Acoustic Signals Based on Uniform Phase Empirical Mode Decomposition Amplitude-Aware Permutation Entropy and Pearson Correlation Coefficient [O] . Guohui Li, Zhichao Yang, Hong Yang 2018

机译：基于均匀相位经验分解幅度感知置换熵和Pearson相关系数的水下声信号降噪方法
7. Studies on deformation and fracture mehanism of paper part 5. Maximum amplitude distribution analysis of acoustic emission signals from the tensile testing of paper. [O] . Tatsuo Yamauchi, Koji Murakami 1992

机译：纸张部分变形和断裂机制的研究。纸张拉伸试验声发射信号的最大幅度分布分析。
8. Amplitude Distribution Analysis of Acoustic Emission Signals. [R] . ono, kanji 1975

机译：声发射信号的幅度分布分析。

LETTERS IN FRACTURE AND MICROMECHANICS QUANTITATIVE RELATION BETWEEN ACOUSTIC EMISSION SIGNAL AMPLITUDE AND ARRESTED CLEAVAGE MICROCRACK SIZE

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