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Crack in a 2D beam lattice: Analytical solutions for two bending modes
Michael Ryvkin
*
,
Leonid Slepyan
*
Corresponding author for this work
School of Mechanical Engineering
Aliyah Project
Research output
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Contribution to journal
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Article
›
peer-review
22
Scopus citations
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Keyphrases
Macro Level
100%
Beam Lattice
100%
Analytical Solution
100%
Crack Front
100%
2D Beam
100%
Front Beam
100%
Bending Mode
100%
HyPer
66%
Bending Moment
66%
Symmetric Mode
66%
Antisymmetric Mode
66%
Root Type
33%
Discrete Fourier Transform
33%
Square Root
33%
Energy Release
33%
Fracture Mode
33%
Strength of Materials
33%
Square Grid
33%
Lattice Solutions
33%
Elastic Beam
33%
Semi-infinite Crack
33%
Remote Loading
33%
Force Distribution
33%
Crack Advance
33%
Finite Crack
33%
Singular Field
33%
Anisotropic Bending
33%
Continuity Plate
33%
Whole Plane
33%
Transverse Force
33%
Initial Crack
33%
Fracture Energy
33%
Bending Plate
33%
Singular Modes
33%
Long Waves
33%
Critical Strain Energy
33%
Fracture Development
33%
Static Problem
33%
Continuous Solution
33%
Engineering
Crack Front
100%
Antisymmetric Mode
66%
Symmetric Mode
66%
Singularities
33%
Strain Energy
33%
Closed Form
33%
Anisotropic
33%
Square Root
33%
Bending Moment
33%
Elastic Beam
33%
Infinite Crack
33%
Transverse Force
33%
Remote Load
33%
Plate Bending
33%
Initial Crack
33%
Crack Advance
33%
Critical Strain
33%
Energy Release
33%
Static Problem
33%
Distributed Bending Moment
33%
Fracture Energy
33%
Discrete Fourier Transform
33%