Modelling fatigue crack growth in shape memory alloys

Modelling fatigue crack growth in shape memory alloys

We present a phase field-based framework for modelling fatigue damage in Shape Memory Alloys (SMAs). The model combines, for the first time: (i) a generalized phase field description of fracture, incorporating multiple phase field formulations, (ii) a constitutive model for SMAs, based on a Drucker–...

Fuld beskrivelse

Bibliografiske detaljer
Main Authors:	Simoes, M, Braithwaite, C, Makaya, A, Martinez-Paneda, E
Format:	Journal article
Sprog:	English
Udgivet:	Wiley 2022

Lignende værker

Phase field modelling of fracture and fatigue in Shape Memory Alloys
af: Simoes, M, et al.
Udgivet: (2020)

Computational predictions of hydrogen-assisted fatigue crack growth
af: Cui, C, et al.
Udgivet: (2024)

Cohesive zone modelling of hydrogen assisted fatigue crack growth: the role of trapping
af: Fernández-Sousa, R, et al.
Udgivet: (2022)

Crack growth resistance in metallic alloys: the role of isotropic versus kinematic hardening
af: Martínez-Pañeda, E, et al.
Udgivet: (2018)

A generalised phase field model for fatigue crack growth in elastic–plastic solids with an efficient monolithic solver
af: Khalil, Z, et al.
Udgivet: (2021)

Numerical Investigations of Shape Memory Alloy Fatigue
af: Vanderson M. Dornelas, et al.
Udgivet: (2021-09-01)

Crack Growth Model for Evaluation the Fatigue Life of Aluminum Alloys
af: Zahraa M. Chaloob, et al.
Udgivet: (2023-12-01)

Fatigue crack micromechanisms in a Cu-Zn-Al shape memory alloy with pseudo-elastic behavior
af: Vittorio Di Cocco, et al.
Udgivet: (2015-10-01)

Fatigue crack micromechanisms in a Cu-Zn-Al shape memory alloy with pseudo-elastic behavior
af: Vittorio Di Cocco, et al.
Udgivet: (2015-09-01)

Phase field cohesive zone modeling for fatigue crack propagation in quasi-brittle materials
af: Baktheer, A, et al.
Udgivet: (2024)

Superelasticity and fatigue in oligocrystalline shape memory alloy microwires
af: Ueland, Stian M., et al.
Udgivet: (2016)

Effect of overloads on fatigue crack growth in aluminum alloy
af: Khoo, Guo Rui
Udgivet: (2015)

Fatigue crack growth rate analysis in a titanium alloy
af: Korsunsky, A, et al.
Udgivet: (2008)

Fatigue Characteristics of Fe-Based Shape-Memory Alloys
af: Ki-Nam Hong, et al.
Udgivet: (2020-08-01)

Hydrogen-assisted fatigue crack growth: pre-charging vs in-situ testing in gaseous environments
af: Zafra, A, et al.
Udgivet: (2023)

An FFT-based crystal plasticity phase-field model for micromechanical fatigue cracking based on the stored energy density
af: Lucarini, S, et al.
Udgivet: (2023)

A coupled phase field formulation for modelling fatigue cracking in lithium-ion battery electrode particles
af: Ai, W, et al.
Udgivet: (2022)

The effect of temperature on low-cycle fatigue of shape memory alloy
af: V. Iasnii, et al.
Udgivet: (2019-10-01)

Healing cracks in additively manufactured NiTi shape memory alloys
af: Jia-Ning Zhu, et al.
Udgivet: (2023-12-01)

Fatigue crack growth mechanisms of cast Ti-48Al (at. %) alloy
af: Hamad, S., et al.
Udgivet: (2000)

Analytical and numerical investigation of fatigue crack growth in aluminum alloy
af: Golestaneh, Amirreza Fahim, et al.
Udgivet: (2011)

Microstructural Impact on Fatigue Crack Growth Behavior of Alloy 718
af: Christian Gruber, et al.
Udgivet: (2022-04-01)

Prediction of Fatigue Crack Growth in Vacuum-Brazed Titanium Alloy
af: Chou-Dian Huang, et al.
Udgivet: (2023-11-01)

Mechanism of crack branching in the fatigue crack growth path of 2324-T39 Aluminium alloy
af: Lu Songsong, et al.
Udgivet: (2015-12-01)

Mechanism of crack branching in the fatigue crack growth path of 2324-T39 Aluminium alloy
af: Lu Songsong, et al.
Udgivet: (2016-01-01)

The effect of temperature on low-cycle fatigue of shape memory alloy
af: Volodymyr Iasnii, et al.
Udgivet: (2019-08-01)

Cyclic behavior and energy approach of the fatigue of shape memory alloys
af: Ziad Moumni, et al.
Udgivet: (2009-12-01)

Fatigue growth rate of inclined surface cracks in aluminum and titanium alloys
af: R.R. Yarullin, et al.
Udgivet: (2022-04-01)

Growth of fatigue cracks in polycarbonate /
af: 301441 Arad, S., et al.

Progress and opportunities in modelling environmentally assisted cracking
af: Martinez-Paneda, E
Udgivet: (2021)

Fatigue crack growth in an aluminum alloy: Avalanches and coarse graining to growth laws
af: Ivan V. Lomakin, et al.
Udgivet: (2021-11-01)

Fatigue crack growth modelling and analysis
af: Wong, Brian Sixian
Udgivet: (2018)

Fatigue crack growth modelling and analysis
af: Kabillen, T.
Udgivet: (2024)

Statistical Modeling of Fatigue Crack Growth
af: Guerra, Ignacio, et al.
Udgivet: (2002-12-01)

Fatigue crack growth resistance and crack closure behavior in two aluminum alloys for aeronautical applications
af: Elenice Maria Rodrigues, et al.
Udgivet: (2005-09-01)

Numerical Simulation of Fatigue Crack Growth in Titanium Alloy Orthopaedic Plates
af: Filip Vučetić*, et al.
Udgivet: (2020-01-01)

Interactions between microstructure and fatigue crack growth in αβ titanium alloy
af: Renon Vincent, et al.
Udgivet: (2020-01-01)

Small fatigue crack growth behavior of TB6 titanium alloy
af: XU Liang, et al.
Udgivet: (2019-11-01)

An assessment of phase field fracture: crack initiation and growth
af: Kristensen, PK, et al.
Udgivet: (2021)

An analysis of thermo-mechanical fatigue crack growth in the titanium alloy Ti-6246
af: Palmer J., et al.
Udgivet: (2020-01-01)