A multiscale finite element investigation on the role of intra- and extra-fibrillar mineralisation on the elastic properties of bone tissue-Reference-Cited by-同舟云学术

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A multiscale finite element investigation on the role of intra- and extra-fibrillar mineralisation on the elastic properties of bone tissue

Published:2022-05 Issue: Volume:129 Page:105139
ISSN:1751-6161
Container-title:Journal of the Mechanical Behavior of Biomedical Materials
language:en
Short-container-title:Journal of the Mechanical Behavior of Biomedical Materials

Author:

Alijani Hamid,Vaughan Ted J.^ORCID

Publisher

Elsevier BV

Subject

Mechanics of Materials,Biomedical Engineering,Biomaterials

Reference80 articles.

1. Modeling of stiffness and strength of bone at nanoscale;Abueidda;J. Biomech. Eng.,2017

2. The nanometre-scale physiology of bone: steric modelling and scanning transmission electron microscopy of collagen-mineral structure;Alexander;J. R. Soc. Interface,2012

3. An efficient two-scale 3D FE model of the bone fibril array: comparison of anisotropic elastic properties with analytical methods and micro-sample testing;Alizadeh;Biomech. Model. Mechanobiol.,2020

4. Effect of geometrical structure variations on the viscoelastic and anisotropic behaviour of cortical bone using multi-scale finite element modelling;Atthapreyangkul;J. Mech. Behav. Biomed. Mater.,2021

5. A multiscale modelling of bone ultrastructure elastic proprieties using finite elements simulation and neural network method;Barkaoui;Comput. Methods Progr. Biomed.,2016

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1. Nano-scale modeling of energy dissipation in a single lamella reveals the significant contribution of collagen-mineral sliding to intrinsic bone toughness;Mechanics of Advanced Materials and Structures;2024-09-12

2. Curved mineral platelets in bone;Acta Biomaterialia;2024-07

3. Micromechanical modelling of transverse fracture behaviour of lamellar bone using a phase-field damage model: The role of non-collagenous proteins and mineralised collagen fibrils;Journal of the Mechanical Behavior of Biomedical Materials;2024-05

4. Exploring the hierarchical structure of lamellar bone and its impact on fracture behaviour: A computational study using a phase field damage model;Journal of the Mechanical Behavior of Biomedical Materials;2024-05

5. In-silico simulation of nanoindentation on bone using a 2D cohesive finite element model;Journal of the Mechanical Behavior of Biomedical Materials;2024-03

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