Add to ORKGThe tribological characteristics of ceramics sliding on ceramics are compared to those of ceramics sliding on a nickel based turbine alloy. The friction and wear of oxide ceramics and silicon-based ceramics in air at temperatures from room ambient to 900 C (in a few cases to 1200 C) were measured for a hemispherically-tipped pin on a flat sliding contact geometry. In general, especially at high temperature, friction and wear were lower for ceramic/metal combinations than for ceramic/ceramic combinations. The better tribological performance for ceramic/metal combinations is attributed primarily to the lubricious nature of the oxidized surface of the metal
This thesis describes a study of the friction and wear characteristics of a range of oxide and sili...
The adhesion, friction, and micromechanical properties of ceramics, both in monolithic and coating f...
The actual material wear process is influenced by a set of specific factors, such as: their filling,...
Results of fundamental and focused research on the tribological properties of ceramics are discussed...
It was initially hypothesized that advanced ceramics would exhibit favorable high te- friction and w...
The tribological and lubricated behavior of both oxide and nonoxide ceramics are reviewed in this ch...
Several reports show that lubrication improves the sliding properties of ceramics. This paper compar...
When a ceramic is brought into contact with itself, another ceramic, or a metal, strong bond forces ...
The friction and wear of oxide-ceramics sliding against the nickel base alloy IN-718 at 25 to 800 C ...
Reciprocating ball-on-flat dry sliding friction and wear experiments have been conducted on singleph...
The friction and wear behaviour of ZrO2-Y203, ZrO2-Y203-CeO2 and ZrO2-A1203 composite ceramics again...
The basic concepts associated with the friction and wear of materials are discussed as they relate t...
Reciprocating ball-on-flat dry sliding friction and wear experiments have been conducted on singleph...
Ceramic materials, with their biocompatibility and wear resistance, are widely used in biomedical be...
Ceramics, for the most part, do not have inherently good tribological properties. For example fricti...
This thesis describes a study of the friction and wear characteristics of a range of oxide and sili...
The adhesion, friction, and micromechanical properties of ceramics, both in monolithic and coating f...
The actual material wear process is influenced by a set of specific factors, such as: their filling,...
Results of fundamental and focused research on the tribological properties of ceramics are discussed...
It was initially hypothesized that advanced ceramics would exhibit favorable high te- friction and w...
The tribological and lubricated behavior of both oxide and nonoxide ceramics are reviewed in this ch...
Several reports show that lubrication improves the sliding properties of ceramics. This paper compar...
When a ceramic is brought into contact with itself, another ceramic, or a metal, strong bond forces ...
The friction and wear of oxide-ceramics sliding against the nickel base alloy IN-718 at 25 to 800 C ...
Reciprocating ball-on-flat dry sliding friction and wear experiments have been conducted on singleph...
The friction and wear behaviour of ZrO2-Y203, ZrO2-Y203-CeO2 and ZrO2-A1203 composite ceramics again...
The basic concepts associated with the friction and wear of materials are discussed as they relate t...
Reciprocating ball-on-flat dry sliding friction and wear experiments have been conducted on singleph...
Ceramic materials, with their biocompatibility and wear resistance, are widely used in biomedical be...
Ceramics, for the most part, do not have inherently good tribological properties. For example fricti...
This thesis describes a study of the friction and wear characteristics of a range of oxide and sili...
The adhesion, friction, and micromechanical properties of ceramics, both in monolithic and coating f...
The actual material wear process is influenced by a set of specific factors, such as: their filling,...