Crack path and fracture surface analysis of ultrasonic fatigue testing under multiaxial loadings
Authors: Reis, L., Da Costa, P.R., Pereira, R., Montalvão, D. and Freitas, M.
Journal: Engineering Failure Analysis
Volume: 142
ISSN: 1350-6307
DOI: 10.1016/j.engfailanal.2022.106785
Abstract:Ultrasonic fatigue testing machines and related research are continuously growing. They allow researchers to study fatigue in a time and energy reliable manner, fatigue strength and fracture mechanics between 10E06 to 10E10 cycles, the established Very High Cycle Fatigue (VHCF) regime. Almost all published research to date was conducted under uniaxial tension–compression, pure torsion or bending loading under ultrasonic fatigue testing. The interest in multiaxial ultrasonic testing for VHCF has begun to evolve from the increasing available knowledge surrounding uniaxial fatigue in VHCF. Tension-Torsion and in-plane biaxial ultrasonic fatigue tests were first reached by adapting the tension–compression ultrasonic setup. The present work focuses on the crack path, critical initiation angle, fracture surface analysis and evaluation of different specimens, that failed under different biaxial loading conditions under ultrasonic fatigue. Specimens were specially designed and machined to function under ultrasonic fatigue machines resonance concept. Three different biaxial loading paths were carried out, in-phase tension–torsion and tension–tension, and out-of-phase tension–compression. Crack initiation, crack path and crack surface morphologies were analyzed by optic microscope and scanning electron microscope. Experimental results were analyzed and discussed; conclusions concerning these types of failures under ultrasonic testing regime are drawn.
https://eprints.bournemouth.ac.uk/37530/
Source: Scopus
Crack path and fracture surface analysis of ultrasonic fatigue testing under multiaxial loadings
Authors: Reis, L., Da Costa, P.R., Pereira, R., Montalvao, D. and Freitas, M.
Journal: ENGINEERING FAILURE ANALYSIS
Volume: 142
eISSN: 1873-1961
ISSN: 1350-6307
DOI: 10.1016/j.engfailanal.2022.106785
https://eprints.bournemouth.ac.uk/37530/
Source: Web of Science (Lite)
Crack path and fracture surface analysis of ultrasonic fatigue testing under multiaxial loadings
Authors: Reis, L., Costa, P., Pereira, R., Montalvao, D. and Freitas, M.
Journal: Engineering Failure Analysis
Volume: 142
Issue: 2022
Publisher: Elsevier
ISSN: 1350-6307
DOI: 10.1016/j.engfailanal.2022.106785
Abstract:Ultrasonic fatigue testing machines and related research are continuously growing. They allow researchers to study fatigue in a time and energy reliable manner, fatigue strength and fracture mechanics between 10E06 to 10E10 cycles, the established Very High Cycle Fatigue (VHCF) regime. Almost all published research to date was conducted under uniaxial tension–compression, pure torsion or bending loading under ultrasonic fatigue testing. The interest in multiaxial ultrasonic testing for VHCF has begun to evolve from the increasing available knowledge surrounding uniaxial fatigue in VHCF. Tension-Torsion and in-plane biaxial ultrasonic fatigue tests were first reached by adapting the tension–compression ultrasonic setup. The present work focuses on the crack path, critical initiation angle, fracture surface analysis and evaluation of different specimens, that failed under different biaxial loading conditions under ultrasonic fatigue. Specimens were specially designed and machined to function under ultrasonic fatigue machines resonance concept. Three different biaxial loading paths were carried out, in-phase tension–torsion and tension–tension, and out-of-phase tension–compression. Crack initiation, crack path and crack surface morphologies were analyzed by optic microscope and scanning electron microscope. Experimental results were analyzed and discussed; conclusions concerning these types of failures under ultrasonic testing regime are drawn.
https://eprints.bournemouth.ac.uk/37530/
Source: Manual
Crack path and fracture surface analysis of ultrasonic fatigue testing under multiaxial loadings
Authors: Reis, L., Costa, P., Pereira, R., Montalvao, D. and Freitas, M.
Journal: Engineering Failure Analysis
Volume: 142
Issue: December
Publisher: Elsevier
ISSN: 1350-6307
Abstract:Ultrasonic fatigue testing machines and related research are continuously growing. They allow researchers to study fatigue in a time and energy reliable manner, fatigue strength and fracture mechanics between 10E06 to 10E10 cycles, the established Very High Cycle Fatigue (VHCF) regime. Almost all published research to date was conducted under uniaxial tension–compression, pure torsion or bending loading under ultrasonic fatigue testing. The interest in multiaxial ultrasonic testing for VHCF has begun to evolve from the increasing available knowledge surrounding uniaxial fatigue in VHCF. Tension-Torsion and in-plane biaxial ultrasonic fatigue tests were first reached by adapting the tension–compression ultrasonic setup. The present work focuses on the crack path, critical initiation angle, fracture surface analysis and evaluation of different specimens, that failed under different biaxial loading conditions under ultrasonic fatigue. Specimens were specially designed and machined to function under ultrasonic fatigue machines resonance concept. Three different biaxial loading paths were carried out, in-phase tension–torsion and tension–tension, and out-of-phase tension–compression. Crack initiation, crack path and crack surface morphologies were analyzed by optic microscope and scanning electron microscope. Experimental results were analyzed and discussed; conclusions concerning these types of failures under ultrasonic testing regime are drawn.
https://eprints.bournemouth.ac.uk/37530/
Source: BURO EPrints