In this work polymer infiltrated ceramic network materials picns were fabricated via.
Mechanical properties of polymer infiltrated ceramic network materials.
Dental restorative materials with high mechanical properties and biocompatible performances are promising.
The flexural strength and elastic modulus were measured using three point bending.
Comparing the results to natural teeth a very promising step toward imitating natural teeth has been realized with picns which was also reported by he and swain.
A literature review on the new polymer infiltrated ceramic network material picn the mechanical properties of the picn are equivalent to the properties of nanoceramic resins lower to lithium disilicate glass ceramic and superior to feldspathic porcelain.
Of a range of novel polymer infiltrated ceramic network picn materials.
Four ceramic network densities ranging from 59 to 72 of theoretical density resin infiltrated picn as well as pure polymer and dense ceramic cross sections were subjected to vickers indentations hv 5 for hardness evaluation.
The present study was mainly conducted to define the mechanical properties of novel polymer infiltrated ceramic network materials picn.
Four ceramic network densities ranging from 59 to 72 of theoretical density resin infiltrated picn as well as pure polymer and dense ceramic cross sections were subjected to vickers indentations hv 5 for hardness.