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Microimaging-informed continuum micromechanics accurately predicts macroscopic stiffness and strength properties of hierarchical plant culm materials
Tarun Gangwar,
Dominik Schillinger
Civil, Environmental, and Geo- Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Scopus citations
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Dive into the research topics of 'Microimaging-informed continuum micromechanics accurately predicts macroscopic stiffness and strength properties of hierarchical plant culm materials'. Together they form a unique fingerprint.
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Engineering & Materials Science
Micromechanics
99%
Bamboo
67%
Stiffness
55%
Lignin
33%
Cellulose
29%
Transmission electron microscopy
27%
Electrons
26%
Volume fraction
24%
Physics
23%
Scanning
20%
Calibration
20%
Imaging techniques
20%
Microstructure
17%
Mechanical properties
17%
Physics & Astronomy
micromechanics
100%
stiffness
70%
continuums
57%
lignin
39%
cellulose
30%
hierarchies
26%
mechanical properties
17%
transmission electron microscopy
17%
physics
16%
scanning
16%
microstructure
15%
predictions
14%
electrons
11%
Chemical Compounds
Strength
51%
Length
31%
Lignin
26%
Microstructure
17%
Transmission Electron Microscopy
17%
Volume
15%
Electron Particle
14%