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Mechanistic Structure-Property Relationships in Carbon/Polymer Composites: Connectivity, Junction Resistance, and Durability. [PDF]
Sharma SK +6 more
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3D-Printed PLA/HA Composite Scaffolds: Balancing Mechanical Properties for Bone Tissue Engineering. [PDF]
Budi MNS +8 more
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Multiscale interlinked structures limit fatigue crack propagation in a MXene-polyurethane composite. [PDF]
Liu T +7 more
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Gas Turbine Blade Failures Repaired Using Laser Metal Additive Remanufacturing. [PDF]
Chen C, Zhang M, Liu H, Yang Q.
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Efficient simulation of 3D fatigue crack growth based on boundary elements
PAMM, 2005AbstractThe three‐dimensional simulation of fatigue crack growth under the consideration of 3D effects is presented to follow complex crack paths as realistic as possible from the macroscopic point of view. This aim is mainly based on two aspects. Firstly, an accurate stress analysis is performed by the boundary element method in terms of the 3D Dual ...
K. Kolk, G. Kuhn
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A Local Multi-grid X-FEM approach for 3D fatigue crack growth
International Journal of Material Forming, 2008One proposes a local multi-grid X-FEM method for 3-D crack propagation simulation in large structures. Enrichments allow the asymptotic behaviour on the crack front to be well described and the structure doesn’t need to be remeshed during the crack propagation.
A. Gravouil, J. Rannou, M.-C. Baïetto
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A global model reduction approach for 3D fatigue crack growth with confined plasticity
Computer Methods in Applied Mechanics and Engineering, 2011zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Galland, F. +3 more
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Extended finite element method for numerical simulation of 3D fatigue crack growth
2005Abstract This paper is devoted to the presentation of the Extended Finite Element Method (X-FEM) compared to usual Finite Element Method for simulation of 3D fatigue crack propagation under complex loading. This type of situation is very typical of crack propagation in tribological environment. The X-FEM method will be presented in a first part, and
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