Failure mechanism in porous materials under compression: crackling noise in mesoporous SiO_2

Ekhard K.H. Salje; Daniel Enrique Soto-Parra; Antoni Planes

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Failure mechanism in porous materials under compression: crackling noise in mesoporous SiO_2

机译：多孔材料在压缩状态下的破坏机理：中孔SiO_2的裂纹声

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The failure mechanism of porous materials under uniaxial stress has been investigated experimentally. Microporous SiO_2, Vycor, has been subjected to slowly increasing compressive uniaxial stress with stress rates between 0.2 and 12.2kPa/s. With increasing stress the strain changes stepwise with acoustic emission correlated with each volume collapse. The acoustic emission followed the characteristics of 'crackling noise' with a power law distribution over an exceptionally large interval of 6 decades at the slowest stress rate. The power law exponent is -1.39. Possible applications in mining industry and others are discussed.

机译：实验研究了多孔材料在单轴应力作用下的破坏机理。 SiO_2微孔Vycor受到缓慢增加的压缩单轴应力，应力速率在0.2和12.2kPa / s之间。随着应力的增加，应变逐步变化，声发射与每个体积的减小相关。声发射遵循“ followed啪作响”的特征，在最慢的应力速率下，在长达六十年的异常大间隔内具有幂律分布。幂律指数为-1.39。讨论了在采矿业和其他领域的可能应用。

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《Philosophical Magazine Letters》 |2011年第8期|共7页
作者
Ekhard K.H. Salje; Daniel Enrique Soto-Parra; Antoni Planes;
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正文语种 eng
中图分类物理学;
关键词
crackling noise; cracking; mechanical testing; porous media; silicates;

机译：裂纹声;裂纹;机械测试;多孔介质;硅酸盐;

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1. Failure mechanism in porous materials under compression: crackling noise in mesoporous SiO_2 [J] . Ekhard K.H. Salje, Daniel Enrique Soto-Parra, Antoni Planes Philosophical Magazine Letters . 2011,第7a8期

机译：多孔材料在压缩状态下的破坏机理：中孔SiO_2的裂纹声
2. Crackling noise during failure of alumina under compression: The effect of porosity [J] . Castillo-Villa P.O., Baró J., Planes A., Journal of Physics. Condensed Matter . 2013,第29期

机译：氧化铝在压缩状态下失效时的裂纹声：孔隙率的影响
3. Correlation between compression strength and failure mechanism of carbon fiber composite with tailored modulus of amide acid/SiO_2 synergistically stiffened epoxy matrix [J] . Lu Kangyi, Zhu Wenmo, Su Qingfu, Composites Science and Technology . 2021,第Jana20期

机译：碳纤维复合材料压缩强度与酰胺酸/ SiO_2协同加强环氧基质的碳纤维复合材料的压缩强度和失效机理
4. Finite Element Analysis and Failure Mechanisms of Porous Biomaterial Architecture for Prosthetic Device [C] . Prashant Athanker, Amit Singh International Conference on Reliability and Safety Engineering;National Conference on Reliability and Safety Engineering . 2020

机译：假体装置多孔生物材料架构的有限元分析及失效机制
5. Interactions between cognition and hearing aid compression release time: Effects of linguistic context of speech test materials on speech-in-noise performance. [D] . Xu, Jingjing. 2012

机译：认知和助听器压缩释放时间之间的相互作用：语音测试材料的语言环境对语音噪声性能的影响。
6. Observation of the Kibble–Zurek Mechanism in Microscopic Acoustic Crackling Noises [O] . H. O. Ghaffari, W. A. Griffth, P.M. Benson, -1

机译：微观声破裂声中的粗磨-Zurek机理观察
7. Crackling noise during failure of alumina under compression: effect of porosity [O] . Castillo-Villa, Pedro O, Baró, Jordi, Planes, Antoni, 2013

机译：压缩氧化铝失效时的裂纹噪声：多孔性
8. High Strain-Rate and Quasi-Static Ductile Failure Mechanisms in Porous Materials [R] . Zikry, M. A. 1999

机译：多孔材料中高应变率和准静态延性失效机理

Failure mechanism in porous materials under compression: crackling noise in mesoporous SiO_2

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