Microstructural Characterization by Nondestructive Methods

机译：非破坏性方法的微观结构特征

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Nondestructive methods may help to detect changes in the internal structure of a material and to explain the behaviour of the material. This paper describes a series of nondestructive tests performed on magnesium composites with a variety of matrices: commercial pure Mg and three magnesium alloys AZ91, ZC63 and ZE41. Short fibres of delta-A1_2O_3 (Saffil?) were used as the reinforcement. Internal friction measurements and joint dilatation and acoustic emission studies were used to demonstrate how thermal cycling influences the deformation behaviour of Mg based metal matrix composites. The values of the logarithmic decrement are influenced by the upper temperature of the cycle. The acoustic emission activity and the residual strain increase with increasing upper temperature. The results may be explained assuming that internal thermal stresses are generated.

机译：无损方法可以有助于检测材料的内部结构的变化并解释材料的行为。本文描述了一系列在具有多种矩阵的镁复合材料上进行的一系列非破坏性测试：商业纯Mg和三种镁合金AZ91，ZC63和ZE41。 δ-A1_2O_3（Syaffilα）的短纤维用作增强。内部摩擦测量和关节扩张和声发射研究用于证明热循环如何影响基于Mg的金属基质复合材料的变形行为。对数减量的值受到循环的上温度的影响。声发射活性和残留应变随着上温度的增加而增加。假设产生内部热应力，可以解释结果。

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《International Conference on Materials Structure and Micromechanics of Fracture》|2005年||共6页
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作者
P. Lukac; Z. Trojanova; F. Chmelik;
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中图分类 TB3-53;
关键词
Internal friction; Acoustic emission; Thermal stress; Dislocation motion; Magnesium composites;

机译：内部摩擦;声发射;热应力;位错运动;镁复合材料;

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Microstructural Characterization by Nondestructive Methods

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