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Precipitation hardening by holding after simulated complete firing in a Pd-Ag-Au-In-Sn metal-ceramic alloy
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Á¶¹ÌÇâ ( Cho Mi-Hyang ) - ¿ø±¤º¸°Ç´ëÇÐ Ä¡±â°ø°ú
Á¶¼ö¿¬ ( Cho Su-Yoen ) - ºÎ»ê´ëÇб³ Ä¡ÀÇÇÐÀü¹®´ëÇпø Ä¡°úÀç·áÇб³½Ç
KMID : 1035320150420020165
Abstract
The aim of present study is to evaluate the changes in hardness of a Pd(Palladium)-Ag(Silver)-Au(Gold)-In(Indium)-Sn(Tin) metal- ceramic alloy by holding after simulated complete firing. In the porcelain firing simulated specimen, the hardness increased by holding at 500~700 ¡É. The most effective holding condition for hardening of the Pd-Ag-Au-In-Sn alloy was the holding at 700 ¡É for 10 min. In all specimens, the microstructure was composed of the matrix covered with precipitates and the particle-like structure. The increase in hardness was resulted from the precipitation of the Pd3(In,Sn,Ga) phase with f.c.t. structure in the matrix composed of the Pd-Ag-based phase with f.c.c. structure. The decrease in hardness by prolonged holding up to 50 min at 700 ¡É was resulted from the microstructural coarsening of the precipitates. In the Pd-Ag-Au-In-Sn metal-ceramic alloy, the holding at 700 ¡É for 10 min after simulated complete firing is an effective method for improving hardness without affecting the porcelain superstructure, therefore it is recommended for clinical application.
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Pd-Ag-Au-In-Sn alloy; holding; precipitation; coarsening
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