"0"^^ . "P(GA106/00/D055), P(GA106/01/0376), P(IAA2041201), P(IPP1050128), Z(AV0Z2041904), Z(AV0Z2065902)" . . "Obrtl\u00EDk, Karel" . "3"^^ . "Southampton" . . "Toronto [CA]" . . . . "Mat\u011Bjkov\u00E1, Ji\u0159ina" . "RIV/68081723:_____/03:07033075!RIV/2004/AV0/A07004/N" . . "AFM study of slip localization and surface relief evolution in fatigued ferritic X10CrAl24 stainless steel." . . "Man, Ji\u0159\u00ED" . "atomic force microscopy; persistent slip band; extrusion growth"@en . . . . "Rek, Anton\u00EDn" . "WIT Press" . . . . "193;203" . "11"^^ . . "Fatigue Damage of Materials - Experiment and Analysis." . "[0C8E050FEEED]" . . "RIV/68081723:_____/03:07033075" . . "AFM study of slip localization and surface relief evolution in fatigued ferritic X10CrAl24 stainless steel."@en . "Atomic force microscopy (AFM) was applied to study the surface relief evolution at the emerging persistent slip bands (PSBs) in individual grains of polycrystalline ferritic stainless steel cycled with constant plastic strain amplitude. The early appearance of the first persistent slip markings (PSMs) correlates with the cyclic hardening/softening curve and with the characteristic variations in the loop shape parameter. Surface relief of the well-developed individual PSMs consists of extrusions with fine irregular structure, but also of intrusions laying both parallel to the extrusions and within the PSMs. The extrusion height can be assessed by a direct observation of the metal surface and the intrusion depth using the plastic replica technique. The extrusions grow continuously during the fatigue life. The initial rate is high and decreases to a lower value that is constant up to the end of the fatigue life. The experimental results are discussed in terms of vacancy models of surface relief evolution" . . . "597591" . . . . "2003-07-14+02:00"^^ . . "6"^^ . . "AFM study of slip localization and surface relief evolution in fatigued ferritic X10CrAl24 stainless steel."@en . "Vi\u010Dar, M." . . "Pol\u00E1k, Jaroslav" . "Atomic force microscopy (AFM) was applied to study the surface relief evolution at the emerging persistent slip bands (PSBs) in individual grains of polycrystalline ferritic stainless steel cycled with constant plastic strain amplitude. The early appearance of the first persistent slip markings (PSMs) correlates with the cyclic hardening/softening curve and with the characteristic variations in the loop shape parameter. Surface relief of the well-developed individual PSMs consists of extrusions with fine irregular structure, but also of intrusions laying both parallel to the extrusions and within the PSMs. The extrusion height can be assessed by a direct observation of the metal surface and the intrusion depth using the plastic replica technique. The extrusions grow continuously during the fatigue life. The initial rate is high and decreases to a lower value that is constant up to the end of the fatigue life. The experimental results are discussed in terms of vacancy models of surface relief evolution"@en . "0"^^ . "AFM study of slip localization and surface relief evolution in fatigued ferritic X10CrAl24 stainless steel." .