Add to ORKGFriction and wear of alumina and zirconia ceramics with grain sizes between 0.3 and 3 micrometers are investigated in different media. Experimental evidence is presented for a hierarchical order of micromechanical influences like the grain boundary toughness, subcritical crack growth resistance, residual microstresses, and the hardness. The different grain size dependencies of these parameters result in different grain size effects in wear depending on the active micromechanisms
Sliding wear behavior of sintered alumina with grain sizes between 0.45 and 4 mu m was studied in bo...
Considering an increase in the fracture toughness, a smaller flaw size and reduced subcritical crack...
New submicrometer Al2O3-ceramics exhibit much better mechanical and tribological characteristics tha...
Despite the wealth of literature on the friction and wear behaviour of ceramics, their wear mechanis...
The effect of the microstructure on the wear modes in structural ceramic materials was studied in tw...
To understand the roles of grain size and a small amount of glassy phase in the abrasive wear mechan...
Pressureless sintering is used to produce submicron alumina bodies with a hardness that equals the l...
Using a pin-on-plate tribometer with the reciprocating motion of SiC against yttria-doped tetragonal...
With a view to understanding the friction and deformation behaviour of tough zirconia polycrystals u...
Un-lubricated sliding wear behaviour of sub-micron grained (average grain size, G=0.45 mu m), self-m...
The goal of the present work is to investigate the influence of microstructural variables (grain siz...
The friction and wear behaviour of two ZrO2-Al2O3 composite materials, ADZ (20 wt% Al2O3 dispersed i...
The friction and wear behaviour of two ZrO2-Al2O3 composite materials, ADZ (20 wt% Al2O3 dispersed i...
The role of microstructural scale on deformation-micro-fracture damage induced by contact with spher...
Engineering ceramic materials were designed for structural applications under severe conditions of h...
Sliding wear behavior of sintered alumina with grain sizes between 0.45 and 4 mu m was studied in bo...
Considering an increase in the fracture toughness, a smaller flaw size and reduced subcritical crack...
New submicrometer Al2O3-ceramics exhibit much better mechanical and tribological characteristics tha...
Despite the wealth of literature on the friction and wear behaviour of ceramics, their wear mechanis...
The effect of the microstructure on the wear modes in structural ceramic materials was studied in tw...
To understand the roles of grain size and a small amount of glassy phase in the abrasive wear mechan...
Pressureless sintering is used to produce submicron alumina bodies with a hardness that equals the l...
Using a pin-on-plate tribometer with the reciprocating motion of SiC against yttria-doped tetragonal...
With a view to understanding the friction and deformation behaviour of tough zirconia polycrystals u...
Un-lubricated sliding wear behaviour of sub-micron grained (average grain size, G=0.45 mu m), self-m...
The goal of the present work is to investigate the influence of microstructural variables (grain siz...
The friction and wear behaviour of two ZrO2-Al2O3 composite materials, ADZ (20 wt% Al2O3 dispersed i...
The friction and wear behaviour of two ZrO2-Al2O3 composite materials, ADZ (20 wt% Al2O3 dispersed i...
The role of microstructural scale on deformation-micro-fracture damage induced by contact with spher...
Engineering ceramic materials were designed for structural applications under severe conditions of h...
Sliding wear behavior of sintered alumina with grain sizes between 0.45 and 4 mu m was studied in bo...
Considering an increase in the fracture toughness, a smaller flaw size and reduced subcritical crack...
New submicrometer Al2O3-ceramics exhibit much better mechanical and tribological characteristics tha...