Crack deflection by the transformable particles dispersed in composites
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Publication:268895
DOI10.1007/s00707-015-1440-1zbMath1334.74073OpenAlexW1772009811MaRDI QIDQ268895
Junling Hou, Junnan Lv, Qun Li, Hong Zuo
Publication date: 18 April 2016
Published in: Acta Mechanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00707-015-1440-1
Cites Work
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- Continuum theory of dilatant transformation toughening in ceramics
- Micromechanics modelling for the constitutive behavior of polycrystalline shape memory alloys. I: Derivation of general relations
- Micromechanics modelling for the constitutive behavior of polycrystalline shape memory alloys. II: Study of the individual phenomena
- The elastic energy-momentum tensor
- Shape-memory alloys: Macromodelling and numerical simulations of the superelastic behavior
- On the properties of the Eshelby tensor
- Fracture toughening mechanism of shape memory alloys due to martensite transformation
- Configuration forces as basic concepts of continuum physics
- The Near-Tip Stress Intensity Factor for a Crack Partially Penetrating an Inclusion
- On Energy-Release Rates for a Plane Crack
- Mechanics in Material Space
- Crack propagation in continuous media
- Improvements and algorithmical considerations on a recent three-dimensional model describing stress-induced solid phase transformations
- Conservation Laws and Energy-Release Rates
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