"26210" . "5"^^ . . "60353" . "3"^^ . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . "Hort, Filip" . "P(ED0002/01/01), S" . "1354-2575" . . . . . "Dvo\u0159\u00E1\u010Dek, Ji\u0159\u00ED" . "RIV/00216305:26210/13:PU105510" . "An Experimental Investigation of Rolling Contact Fatigue of Steels Using Acoustic Emission Method"@en . "RIV/00216305:26210/13:PU105510!RIV14-MSM-26210___" . . . "Acoustic emission, Condition monitoring, Fatigue, Steel"@en . . "An Experimental Investigation of Rolling Contact Fatigue of Steels Using Acoustic Emission Method"@en . "55" . . . "12" . . . . . "Mazal, Pavel" . "INSIGHT" . . . "[8CD8A02A85CA]" . . "An Experimental Investigation of Rolling Contact Fatigue of Steels Using Acoustic Emission Method" . . "An Experimental Investigation of Rolling Contact Fatigue of Steels Using Acoustic Emission Method" . "4"^^ . "Noh\u00E1l, Libor" . "Rolling-element bearings are widely used machine components and their failure can result in damage to the whole machine. A bearing failure can be caused by many factors such as improper lubrication, presence of abrasive particles, overloading, moisture, corrosive environment, improper mounting, electrical discharges and material defects. These causes can be eliminated by observance of correct operating conditions, except rolling contact fatigue (RCF). For this reason, the full-scale bearing life tests or material tests for RCF resistance are performed. Various methods of condition monitoring are used to detect damage of these components or specimens in the industry or during testing in laboratories. An analysis of vibrations from tested bearings/specimens is the most widely used method for damage detection and is based on vibration acceleration measurement and its analysis in the time or frequency domain. A more sensitive method for surface damage or subsurface crack detection is the acoustic emission" . "Rolling-element bearings are widely used machine components and their failure can result in damage to the whole machine. A bearing failure can be caused by many factors such as improper lubrication, presence of abrasive particles, overloading, moisture, corrosive environment, improper mounting, electrical discharges and material defects. These causes can be eliminated by observance of correct operating conditions, except rolling contact fatigue (RCF). For this reason, the full-scale bearing life tests or material tests for RCF resistance are performed. Various methods of condition monitoring are used to detect damage of these components or specimens in the industry or during testing in laboratories. An analysis of vibrations from tested bearings/specimens is the most widely used method for damage detection and is based on vibration acceleration measurement and its analysis in the time or frequency domain. A more sensitive method for surface damage or subsurface crack detection is the acoustic emission"@en .