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Physical Property and Phase Transformation in a Commercial Dental Casting High Gold Alloy
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ÀÌÈñ°æ ( Lee Hee-Kyung ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
¹Ú¸íÈ£ ( Park Myung-Ho ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
ÀÌÈ½Ä ( Lee Hwa-Sik ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
KMID : 0362120060280010027
Abstract
The physical property and phase transformation in a commercial dental casting high gold alloy was investigated as a function of ageing temperature and time usingmicrovickers hardness tester, X-ray diffraction, optical and electron microscopy andEPMA analyser. 1. With increasing ageing time, the hardness of solution-treated gold alloys increasedslowly at the initial stage of ageing treatment at an ageing temperature of 300~400¡É,and it reached a maximum value of hardness at the medium stage. Finally, it decreasedgradually during further ageing. The maximum value of hardness at was similar with thatof the conventional materials and suitable for using as the crown & bridge. 2. During isothermal ageing at a temperature range of 300~400¡É, three phasesconsisting of the Au-rich ¥á©ûphase with a face-centered cubic structure, the Pt3Zn ¥á©üphasewith an ordered AuCu3(L12) type(f.c.c.) and the Pt-rich ¥á©ýphase with face-centered cubicstructure in solution-treated gold alloys were transformed into different three phasesconsisting of the ¥á©ûphase, the ¥á©ýphase and the PtZn ¥âphase with an ordered AuCu I(L10)type. 3. The hardening of gold alloys was attributed to the lattice strains of the matrixresulting from the transformation of the ¥á©üphase to the ¥âphase.4. The softening of gold alloys during over-ageing was attributed to the coarsening ofthe nodules consisting of the ¥âphase and ¥á©ûmatrix.
Å°¿öµå
age-hardening;gold alloy;phase transformation;PtZn phase;Pt3Zn phase
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