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The Impact of Microfibril Orientations on the Biomechanics of Plant Cell Walls and Tissues
Mariya Ptashnyk
*
, Brian Seguin
*
Corresponding author for this work
School of Mathematical & Computer Sciences
Mathematics
Research output
:
Contribution to journal
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Article
›
peer-review
10
Citations (Scopus)
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Dive into the research topics of 'The Impact of Microfibril Orientations on the Biomechanics of Plant Cell Walls and Tissues'. Together they form a unique fingerprint.
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INIS
tissues
100%
orientation
100%
cell wall
100%
plant cells
100%
walls
40%
mechanical properties
30%
expansion
30%
growth
20%
matrices
20%
elastic properties
20%
cellulose
20%
microstructure
10%
shape
10%
thickness
10%
equations
10%
anisotropy
10%
elasticity
10%
plant tissues
10%
prisms
10%
morphogenesis
10%
Engineering
Microfibril
100%
Biomechanics
100%
Side Wall
28%
Cellulose Microfibrils
28%
Microstructure
14%
Lateral Direction
14%
Linear Elasticity
14%
Material Science
Elastic Property
100%
Anisotropy
50%
Homogenization
50%
Elasticity
50%
Agricultural and Biological Sciences
Cell Wall
100%
Microfibril
100%
Morphogenesis
10%