Micromechanisms of Fracture of Magnesium Based Composite After Superplastic Deformation

Beáta Ballóková; Katarína Sülleiová; Michal Besterci; Oksana Velgosová; Song-Jeng Huang

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Micromechanisms of Fracture of Magnesium Based Composite After Superplastic Deformation

机译：超塑性变形后镁基复合材料断裂的微观机制

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The micromechanisms of fracture of AZ61 + 1 wt. % Al2O3 composite in the zone of superplastic deformation was analysed and quantified in this work. The specimens were tested at temperature of 200°C at different strain rates. Changing the strain rate, from 1x10-2 s-1 to 1x10-4 s-1, a significant growth of ductility was observed. At maximum value of superplasticity the fracture was transcrystalline ductile with dimples of two size categories. Based on the statistical analysis of fracture micromechanisms at the elevated temperature and strain rates of 10-0- 1x10-4 s-1 hyperbolic dependency was depicted according to Gurland - Plateau theory.

机译：AZ61 + 1 wt。的断裂的微观机制。在这项工作中，对超塑性变形区中的％Al2O3复合材料进行了分析和量化。样品在200°C的温度下以不同的应变速率进行测试。将应变率从1x10-2 s-1更改为1x10-4 s-1，可以观察到塑性的显着增长。在超塑性的最大值处，裂缝是具有两个尺寸类别的凹痕的跨晶延展性。根据Gurland-Plateau理论，在高温和应变速率为10-0- 1x10-4 s-1的断裂微观机制的统计分析基础上，描述了双曲线依赖性。

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《Powder Metallurgy Progress: Journal of Science and Technology of Particle Materials》 |2016年第2期|共1页
作者
Beáta Ballóková; Katarína Sülleiová; Michal Besterci; Oksana Velgosová; Song-Jeng Huang;
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中图分类粉末冶金（金属陶瓷工艺）;
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1. MICROMECHANISMS OF FRACTURE OF MAGNESIUM BASED COMPOSITE AFTER SUPERPLASTIC DEFORMATION [J] . B. Ballokova, K. Sulleiova, M. Besterci Powder Metallurgy Progress: Journal of Science and Technology of Particle Materials . 2016,第2期

机译：超塑性变形后镁复合材料骨折的微观机制
2. R-curve behavior and micromechanisms of fracture in resin based dental restorative composites. [J] . Shah MB, Ferracane JL, Kruzic JJ Journal of the mechanical behavior of biomedical materials . 2009,第5期

机译：树脂基牙科修复复合材料的R曲线行为和断裂的微观机制。
3. R-curve behavior and micromechanisms of fracture in resin based dental restorative composites. [J] . Shah MB, Ferracane JL, Kruzic JJ Journal of the mechanical behavior of biomedical materials . 2009,第5期

机译：树脂基牙科修复复合材料的R曲线行为和断裂的微观机制。
4. Fracture of Ultrafine Grained Magnesium Alloy AZ31 Under Superplastic Deformation Conditions [C] . Rimma Lapovok, Tim Williams, Yuri Estrin European Conference on Fracture . 2011

机译：超塑性变形条件下超细颗粒镁合金AZ31的骨折
5. Fracture mechanics and micromechanisms in fiber-reinforced composites [D] . Li, Shuh-Huei 1993

机译：纤维增强复合材料的断裂力学和微力学
6. Hot Deformation Behavior and Processing Maps of SiC Nanoparticles and Second Phase Synergistically Reinforced Magnesium Matrix Composites [O] . Kaibo Nie, Zhihao Zhu, Kunkun Deng, 2019

机译：SiC纳米颗粒和第二相协同增强镁基复合材料的热变形行为和加工图
7. Elevated Temperature Deformation and Fracture Mechanisms in High-Strain-Rate-Superplastic Si₃N_4p/Alndash;Cundash;Mg Composite [O] . Hajime Iwasaki, Takasuke Mori, Mamoru Mabuchi, 2000

机译：高应变率 - 超塑性Si _{3 N _{4升温变形和断裂机制升高，裂缝机制升高，P}}
8. Micromechanisms of Deformation and Fracture in Aluminum Based MMCs - Interface Effects. [R] . Lewandowski, J. J. 1992

机译：铝基mmCs变形与断裂的微观机制 - 界面效应。

Micromechanisms of Fracture of Magnesium Based Composite After Superplastic Deformation

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