Biomaterial Database

[Investigation of Pd-Ag alloy for porcelain fusing. (Part 3) Mechanical properties (author's transl)]. 1979

J Mori

The most suitable composition of Pd-Ag alloys added In and/or Sn for porcelain fusing was determined by means of the measurement of the mechanical properties (tensile strength, elongation and hardness). The results were summarized as follows: (1) This highest tensile strength was obtained when 5% In and 5% Sn, or 10% Sn were added to the 60 Pd-40 Ag mother alloy, and it was about 52 kgf/mm2 (570 MPa). (2) The effect of the addition of In and Sn to the tensile strength depended on the concentration of Pd and Ag. (3) The elongation increased with increase of the amount of Pd. (4) The Vickers hardness number of the alloys was ranged between 100 and 200. It increased with increase of Ag or Sn content. (5) The most suitable compositions of Pd-Ag alloys for porcelain fusing deduced from the properties such as the bonding strength (in part 1), the thermal expansion coefficient (in part 2) and the mechanical properties (in this paper) were 60 Pd-40 Ag or 64 Pd-36 Ag with addition of 4 Sn-6 In or 8 Sn-2 In. Some characteristic properties of these alloys were as follows; the bonding strength 220 kgf/cm2 (22 MPa), thermal expansion coefficient 14.7 +/- 1x10(-6)/degrees C, thermal expansion hysteresis. 0.00 approximately 0.02%, tensile strength 51 kgf/mm2 (500 MPa), elongation 5% and Vickers hardness number 160 approximately 190.

UI	MeSH Term	Description	Entries
D010165	Palladium	A chemical element having an atomic weight of 106.4, atomic number of 46, and the symbol Pd. It is a white, ductile metal resembling platinum, and following it in abundance and importance of applications. It is used in dentistry in the form of gold, silver, and copper alloys.
D001840	Dental Bonding	An adhesion procedure for orthodontic attachments, such as plastic DENTAL CROWNS. This process usually includes the application of an adhesive material (DENTAL CEMENTS) and letting it harden in-place by light or chemical curing.	Bonding, Dental,Cure of Orthodontic Adhesives,Curing, Dental Cement,Dental Cement Curing,Orthodontic Adhesives Cure
D003722	Dental Alloys	A mixture of metallic elements or compounds with other metallic or metalloid elements in varying proportions for use in restorative or prosthetic dentistry.	Alloy, Dental,Alloys, Dental,Dental Alloy
D003776	Dental Porcelain	A type of porcelain used in dental restorations, either jacket crowns or inlays, artificial teeth, or metal-ceramic crowns. It is essentially a mixture of particles of feldspar and quartz, the feldspar melting first and providing a glass matrix for the quartz. Dental porcelain is produced by mixing ceramic powder (a mixture of quartz, kaolin, pigments, opacifiers, a suitable flux, and other substances) with distilled water. (From Jablonski's Dictionary of Dentistry, 1992)	Porcelain,Porcelain, Dental,Dental Porcelains,Porcelains,Porcelains, Dental
D006245	Hardness Tests	A test to determine the relative HARDNESS of a metal, mineral, or other material according to one of several scales, such as Brinell, Mohs, Rockwell, Vickers, or Shore. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed).	Hardness Test,Test, Hardness,Tests, Hardness
D012834	Silver	An element with the atomic symbol Ag, atomic number 47, and atomic weight 107.87. It is a soft metal that is used medically in surgical instruments, dental prostheses, and alloys. Long-continued use of silver salts can lead to a form of poisoning known as ARGYRIA.