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KMID : 0362120120340040345
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Journal of Technologic Dentistry
2012 Volume.34 No. 4 p.345 ~ p.352
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Phase transformation and grain boundary precipitation related to the age-hardening of an Au-Ag-Cu-Pt-Zn alloy for crown and bridge fabrication
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Cho Mi-Hyang
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Abstract
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Purpose: The age-hardening mechanism of an Au-Ag-Cu-Pt-Zn alloy for crown and bridge fabrication was investigated by means of hardness test, X-ray diffraction study and field emission scanning electron microscopic observation.
Methods: Before hardness testing, the specimens were solution treated and then were rapidly quenched into ice brine, and were subsequently aged isothermally at 400-450¡É for various periods of time in a molten salt bath and then quenched into ice brain. Hardness measurements were made using a Vickers microhardness tester. The specimens were examined at 15 kV using a field emission scanning electron microscope.
Results: By the isothermal aging of the solution-treated specimen at 450¡É, the hardness increased rapidly in the early stage of aging process and reached a maximum hardness value. After that, the hardness decreased slowly with prolonged aging. However, the relatively high hardness value was obtained even with 20,000 min aging. By aging the solution-treated specimen, the f.c.c. Au-Ag-rich a0 phase was transformed into the Au-Ag-rich a1 phase and the AuCu¥° ordered phase.
Conclusion: The hardness increase in the early stage of aging process was attributed to the formation of lattice strains by the precipitation of the Cu-rich phase and then subsequent ordering into the AuCu¥°-type phase. The decrease in hardness in the later stage of aging process was due to the release of coherency strains by the coarsening of tweed structure in the grain interior and by the growth and coarsening of the lamellar structure in the grain boundary. The increase of inter-lamellar space contributed slightly to the softening compared to the growth of lamellar structure toward the grain interior.
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KEYWORD
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age-hardening, AuCu¥°, coarsening, lamellar structure, precipitation
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