MISFIT ACCOMMODATION IN A QUENCHED AND AGED AL-CU ALLOY WITH SILICON PARTICLES

被引:11
作者
STARINK, MJ
VANMOURIK, P
KOREVAAR, BM
机构
来源
METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE | 1993年 / 24卷 / 08期
关键词
D O I
10.1007/BF02657847
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Quenched and aged specimens of the Al-1.3 at. pct Cu-19.1 at. pct Si alloy were studied by X-ray diffraction. Since this alloy contains a high volume percentage (approximately 20 vol pct) of second-phase Si particles, it is regarded as a model for a metal matrix composite (MMC). During isothermal aging of the solid-quenched Al-1.3 at. pct Cu-19.1 at. pct Si alloy, the Cu and Si atoms precipitate. This causes the Al-rich phase lattice parameter to increase from a value lower to a value higher than the lattice parameter of pure unstrained aluminum. Due to thermal misfit after quenching from heat-treatment temperatures, all lattice parameters are influenced by residual stresses. A model describing the elastic/plastic accommodation of a misfitting spherical inclusion in an infinite matrix is adapted for the case of misfitting inclusions in a finite matrix. This model describes the measured lattice parameter shifts of the Si phase reasonably well. Comparison of the model for elastic accommodation and the model for elastic/plastic accommodation with measured stresses shows significant discrepancies for the low-temperature range (DELTAT < 200 K). These discrepancies may be related to the volume effect of defects (dislocations, vacancies) created in the plastic zone.
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页码:1723 / 1731
页数:9
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