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The elastodynamic bimaterial interface under mode I and mode II loading
Benat Gurrutxaga Lerma
Metallurgy and Materials
Research output
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Contribution to journal
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Article
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peer-review
31
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Mathematics
Analytic Solution
7%
Bimaterial
67%
Character
5%
Composite Materials
9%
Contact
6%
Crack
14%
Crack Tip
19%
Debonding
12%
Elastodynamics
54%
Factorization
18%
Far Field
9%
Fault
8%
Fiber
6%
Form
6%
Interface Crack
11%
kernel
10%
Layered Media
10%
Modeling
4%
Near-field
9%
Scattering
20%
Scattering Matrix
9%
Seismic Waves
11%
Shear Stress
9%
Singularity
10%
Slip
8%
Successive Approximation
8%
Chemistry
Composite Material
22%
Displacement
37%
Fiber
29%
Force
30%
Seismic Wave
100%
Shear
41%
Shear Stress
54%
Physics & Astronomy
approximation
3%
composite materials
3%
crack tips
13%
cracks
15%
elastodynamics
59%
expansion
4%
factorization
20%
far fields
5%
fibers
3%
hoops
8%
matrices
3%
near fields
5%
S matrix theory
7%
scattering
10%
seismic waves
8%
shear
4%
shear stress
5%
slip
5%
Engineering & Materials Science
Composite materials
6%
Crack tips
22%
Cracks
23%
Debonding
12%
Factorization
34%
Fibers
7%
Scattering
42%
Seismic waves
14%
Shear stress
10%