Material properties and fractography of an indirect dental resin composite

Objectives ination of material and fractographic properties of a dental indirect resin composite material. s n composite (Paradigm, 3M-ESPE, MN) was characterized by strength, static elastic modulus, Knoop hardness, fracture toughness and edge toughness. Fractographic analyses of the broken bar surfaces was accomplished with a combination of optical and SEM techniques, and included determination of the type and size of the failure origins, and fracture mirror and branching constants. s exure test mean strength ± standard deviation was 145 ± 17 MPa, and edge toughness, Te, was 172 ± 12 N/mm. Knoop hardness was load dependent, with a plateau at 0.99 ± 0.02 GPa. Mirrors in the bar specimens were measured with difficulty, resulting in a mirror constant of approximately 2.6 MPa m1/2. Fracture in the bar specimens initiated at equiaxed material flaws that had different filler concentrations that sometimes were accompanied by partial microcracks. Using the measured flaw sizes, which ranged from 35 to 100 μm in size, and using estimates of the stress intensity shape factors, fracture toughness was estimated to be 1.1 ± 0.2 MPa m1/2. icance ng the flexure tests with fractographic examination enabled identification of the intrinsic strength limiting flaws. The same techniques could be useful in determining if clinical restorations of similar materials fail from the same causes. The existence of a strong load-dependence of the Knoop hardness of the resin composite is not generally mentioned in the literature, and is important for material comparisons and wear evaluation studies. Finally, the edge toughness test was found promising as a quantitative measure of resistance to edge chipping, an important failure mode in this class of materials.