Dental ceramics possesses very good resistance to the compressive stresses however they are very poor under tensile and shear stresses 1 11 22.
Compressive strength of dental ceramics.
It has similar thermal conductivity and coefficient of thermal expansion to enamel and dentine and exhibits high compressive strength.
Note that the proportional limit ultimate compressive strength and elastic modulus of enamel are greater than the corresponding values for dentin.
It can be identified as a sort of ceramic that is not totally transformed into glass phase.
Compressive strength is therefore a useful property for the comparison of dental amalgam resin composites and cements and for determining the qualities of other materials such as plaster and investments.
Fatigue of dental ceramics in a simul ated oral environmen t j dent res.
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Ceramics materials are used in modern dentistry in a variety of different applications including fillings crowns veneers implants and dental brackets.
For a metal the compressive strength is near that of the tensile strength while for a ceramic the compressive strength may be 10 times the tensile strength.
Typical values of compressive strength of some restorative dental materials are given in table 5 1.
Ceramic material used in dentistry is a glassy matrix that is produced via sintering and it contains leucite crystals.
Even the pressure strength of dental ceramics are between 350 550 mpa the draw strength value is 20 60 mpa.
Alumina for example has a tensile strength of 20 000 psi 1138 mpa while the compressive strength is 350 000 psi 2400 mpa.
In fact the elastic modulus of enamel is about three times greater than that of dentin and depending on the study considered it can be as much as seven times higher.
More recently the flexural strength has been reported as 240 mpa compared with a value of 115 mpa for alumina reinforced porcelain oilo 1988.
Iso 6872 dentistry ceramic materials specifies the requirements for ceramic materials used in dentistry and also defines the basic methods for flexural strength testing.
This imparts brittle nature to the ceramics 23 24 25 and tend to fracture under tensile stresses.
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In addition the surface microcracks caused by various reasons during manufacturing are the starting sites of catastrophic fracture.