"RIV/61389005:_____/00:49000314!RIV/2003/AV0/A49003/N" . . . "Schreiber, J." . "Luk\u00E1\u0161, Petr" . "Neutron diffraction investigation of low and high cycle fatigue carbon stainless steel." . . . "0"^^ . . "347/349" . "0"^^ . "Neutron diffraction investigation of low and high cycle fatigue carbon stainless steel."@en . "Materials Science Forum" . "Mikula, Pavel" . "RU - Rusk\u00E1 federace" . . "4"^^ . "719108" . . . "Neov, Dimitar" . "[BE218A0C8CB6]" . "N/A"@en . . "3"^^ . . "Vr\u00E1na, Miroslav" . . . . . "P(GV202/97/K038), P(KSK1048601), Z(AV0Z1048901)" . "Neutron diffraction investigation of low and high cycle fatigue carbon stainless steel." . "Taran, Yu." . . "6"^^ . . "0255-5476" . "Neutron diffraction investigation of low and high cycle fatigue carbon stainless steel."@en . "N/A" . "A series of samples from low carbon austenite stainless steels X6CrNiTil810 (0.04 wt C) with different deprees of low- and high-cycle fatigue were studied on the two-axis diffractometer in NPI (Rez) to obtain microstrain characteristics of austenite and martensite produced by plastic deformation during cycling. A stabilization effect of low frequencycycling with respect to the mean square microstrain above 30 -fatigue is found because practically no evolution of neutron peak broadening was observed in the both phases in themeasured samples. A similar stabilization effect after a certain number of cycles was before noted in literature. Processing of the experimental data from high-cycle fatigue samples has found the interesting phenomenon in a behaviour of microstrain in the austenite phase vs the fatigue degree. Theremarkable bounce from about 50.10 up to 400.10.sub.-6 hashapenned after one million cycles. No evolution of microstrain was observed in the martensite phase."@en . . . "322;327" . . "A series of samples from low carbon austenite stainless steels X6CrNiTil810 (0.04 wt C) with different deprees of low- and high-cycle fatigue were studied on the two-axis diffractometer in NPI (Rez) to obtain microstrain characteristics of austenite and martensite produced by plastic deformation during cycling. A stabilization effect of low frequencycycling with respect to the mean square microstrain above 30 -fatigue is found because practically no evolution of neutron peak broadening was observed in the both phases in themeasured samples. A similar stabilization effect after a certain number of cycles was before noted in literature. Processing of the experimental data from high-cycle fatigue samples has found the interesting phenomenon in a behaviour of microstrain in the austenite phase vs the fatigue degree. Theremarkable bounce from about 50.10 up to 400.10.sub.-6 hashapenned after one million cycles. No evolution of microstrain was observed in the martensite phase." . "RIV/61389005:_____/00:49000314" .