Wear

Abstract: This chapter outlines common mechanisms that contribute to wear, which is broadly defined to be any form of surface damage caused by rubbing one surface against another. Such wear mechanisms include delamination wear, adhesive wear (where adhesion followed by plastic shearing plucks the ends off the softer asperities, typically described by Archard’s law), abrasive wear (where hard particles or asperities gouge a surface and displace material), and oxidative wear (where surfaces react with atmospheric oxygen p… Show more

“…In general, the intimate interaction between teeth and ingesta has a significant impact on the wear on the teeth. Even though wear is influenced by several parameters, such as (1) the speed of contact between tooth and foreign body, (2) the load, (3) the stiffness/hardness of the materials, (4) the wetting degree, and (5) the temperature [139], it results from the mechanical interactions between tooth, ingesta, and sometimes third bodies, such as lubricants and abrasive particles [140–142]. Based on the latter, it is possible to propose some basic hypotheses about the kind of interaction by analysing wear patterns of one surface.…”

Wear patterns of radular teeth in Loligo vulgaris (Cephalopoda; Mollusca) are related to their structure and mechanical properties

“…In general, the intimate interaction between teeth and ingesta has a significant impact on the wear on the teeth. Even though wear is influenced by several parameters, such as (1) the speed of contact between tooth and foreign body, (2) the load, (3) the stiffness/hardness of the materials, (4) the wetting degree, and (5) the temperature [139], it results from the mechanical interactions between tooth, ingesta, and sometimes third bodies, such as lubricants and abrasive particles [140–142]. Based on the latter, it is possible to propose some basic hypotheses about the kind of interaction by analysing wear patterns of one surface.…”

Wear patterns of radular teeth in Loligo vulgaris (Cephalopoda; Mollusca) are related to their structure and mechanical properties

Understanding the friction laws of Amontons and Coulomb by evaluating the real contact area