CHARACTERIZATION OF INTERNAL DAMAGE IN A MMC_p USING X-RAY SYNCHROTRON PHASE CONTRAST MICROTOMOGRAPHY

J.-Y. BUFFIERE; E. MAIRE; P. CLOETENS

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CHARACTERIZATION OF INTERNAL DAMAGE IN A MMC_p USING X-RAY SYNCHROTRON PHASE CONTRAST MICROTOMOGRAPHY

机译：利用X射线同步磁相照相术表征MMC_p内部损伤。

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The initiation and development of damage inside a 6061 Al alloy reinforced with SiC particles has been studied during in situ mechanical tests using high resolution synchrotron X-ray tomography. The high coherence of the X-ray beam used improves the detection of reinforcements in the matrix as well as the detection of cracks. Qualitatively, the same damage mechanisms are observed at the surface and in the bulk of the sample, the rupture of the SiC particles being the dominant mechanism for the early stages of plastic deformation. Quantitatively, however, it is found that the geometrical characteristics of surface SiC particles differ from those of bulk particles and that the damage growth rate is larger inside the sample. This result can be understood in terms of elastic energy and normal stress levels in the SiC particles as cal- culated by finite element method (FEM) analysis.

机译：在使用高分辨率同步加速器X射线断层扫描的原位机械测试过程中，已经研究了用SiC颗粒增强的6061铝合金内部损伤的产生和发展。所使用的X射线束的高相干性改善了基体中钢筋的检测以及裂缝的检测。定性地，在样品的表面和大部分中观察到相同的破坏机理，SiC颗粒的破裂是塑性变形早期的主要机理。然而，定量地发现，表面SiC颗粒的几何特征不同于整体颗粒的几何特征，并且样品内部的损伤生长速率更大。通过有限元方法（FEM）分析计算得出的SiC颗粒中的弹性能和法向应力水平可以理解这一结果。

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《Acta Materialia》 |1999年第5期|1613-1625|共13页
作者
J.-Y. BUFFIERE; E. MAIRE; P. CLOETENS;
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正文语种 eng
中图分类一般性问题;冶炼原料及矿石预处理;金属材料;
关键词
Composites; X-ray topography;

机译：复合材料;X射线地形;

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CHARACTERIZATION OF INTERNAL DAMAGE IN A MMC_p USING X-RAY SYNCHROTRON PHASE CONTRAST MICROTOMOGRAPHY

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