Jan Orłowski scite author profile

SummaryThermal conductivities were determined for five commercial composite restorative materials, one composite crown arid bridge cement, two cavity "bases," arid poly(methy1 methacrylate). In addition, the effect on thermal conductivity of concentration arid type for five resin-reinforcing fillers was investigated. Ilepending upoii type and concentration of filler, the composites ranged in thermal conductivity from somewhat less than that for dentin to slightly over twice that value. Because of their good marginal adaptation, the thermal conductivity of composites must either be closely matched to tooth structiire or a base should be used in deep restorations.

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Sealing of Developmental Pits and Fissures : III. Effects of Fluoride on Adhesion of Rigid and Flexible Sealers

Lee¹,

Stoffey²,

Orłowski³

et al. 1972

J Dent Res

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Surface Roughness of Composite Filling Materials

Lee¹,

Orłowski²,

Kidd³

1975

Biomaterials, Medical Devices, and Artificial Organs

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Seven commercial composite filling materials were studied as regards 1) differences in their ability to take a smooth polish as measured by an electronic roughness gauge and 2) their relative loss in smoothness due to toothbrushing. A series of test formulations indicated that polishability and ability to retain a good polish are interrelated and are functions of filler particle size and filler hardness. Optimization in the filler particles from the point of view of polishability also results in improved wear resistance to toothbrushing.

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Jan Orłowski

Effects of Acid Etchants on Dentin

Differences in the physical properties of composite dental restoratives

Thermal conductivity studies of composite dental restorative materials

Sealing of Developmental Pits and Fissures : III. Effects of Fluoride on Adhesion of Rigid and Flexible Sealers

Surface Roughness of Composite Filling Materials

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