3,293 research outputs found
Friction and wear behavior of glasses and ceramics
Adhesion, friction, and wear behavior of glasses and ionic solids are reviewed. These materials are shown to behave in a manner similar to other solids with respect to adhesion. Their friction characteristics are shown to be sensitive to environmental constituents and surface films. This sensitivity can be related to a reduction in adhesive bonding and the changes in surficial mechanical behavior associated with Rehbinder and Joffe effects. Both friction and wear properties of ionic crystalline solids are highly anisotropic. With metals in contact with ionic solids the fracture strength of the ionic solid and the shear strength in the metal and those properties that determine these will dictate which of the materials undergoes adhesive wear. The chemical activity of the metal plays an important role in the nature and strength of the adhesive interfacial bond that develops between the metal and a glass or ionic solid
Effect of moist and dry bonding on interfacial failure modes after microtensile bond-testing
published_or_final_versio
Effect of delayed activation of light-cured composites on all-in-one adhesives
Abstract no. 116published_or_final_versio
Compromised bonding of all-in-one adhesives upon delayed activation of light-cured composites
Abstract no. 897published_or_final_versio
Fractographic analysis of dentin bonded with a moist or dry technique after microtensile bone testing
published_or_final_versio
The effect of rewetting agents on in vitro recurrent caries
Abstract no. P-1published_or_final_versio
In vitro recurrent caries inhibition effects by a fluoride-containing rewetting agent
Abstract no. 1168published_or_final_versio
Effect of light- and chemical-cured composites on microtensile bond strength of simplified-step adhesives
Abstract no. 66published_or_final_versio
Chemical-cured composite weakens bonding of adhesives by surface interaction
Abstract no. 1700published_or_final_versio
An ultrastructural study of bonding of a self-etching primer to sclerotic dentin
Abstract no. 1538published_or_final_versio
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