Atomistic-based continuum constitutive relation for microtubules: elastic modulus prediction
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Publication:836173
DOI10.1007/S00466-008-0247-5zbMath1301.74003OpenAlexW2024464323MaRDI QIDQ836173
Liying Jiang, Jonathan D. Posner, Hanqing Jiang, Bryan D. Vogt
Publication date: 31 August 2009
Published in: Computational Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00466-008-0247-5
Effective constitutive equations in solid mechanics (74Q15) Soil and rock mechanics (74L10) Biomechanics (92C10) Molecular, statistical, and kinetic theories in solid mechanics (74A25)
Related Items (3)
Predicting buckling behavior of microtubules based on an atomistic-continuum model ⋮ A computational framework for transverse compression of microtubules based on a higher-order Cauchy-Born rule ⋮ Atomic to continuum passage for nanotubes: a discrete Saint-Venant principle and error estimates
Uses Software
Cites Work
- An atomistic-based finite deformation membrane for single layer crystalline films
- On a formulation for a multiscale atomistic-continuum homogenization method.
- An adaptive finite element approach to atomic-scale mechanics. -- The quasicontinuum method
- A scheme for the passage from atomic to continuum theory for thin films, nanotubes and nanorods
- Immersed finite element method and its applications to biological systems
- A cohesive law for carbon nanotube/polymer interfaces based on the van der Waals force
- An atomistic-based continuum theory for carbon nanotubes: analysis of fracture nucleation
- A temperature-related homogenization technique and its implementation in the meshfree particle method for nanoscale simulations
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