Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5020590 | Journal of the Mechanical Behavior of Biomedical Materials | 2017 | 19 Pages |
Abstract
Poly-D-L-lactide/nano-hydroxyapatite (PDLLA/nano-HA) can be used as the biological scaffold material in bone tissue engineering as it can be readily made into a porous composite material with excellent performance. However, constitutive modeling for the mechanical response of porous PDLLA/nano-HA under various stress conditions has been very limited so far. In this work, four types of fundamental compressible hyper-elastic constitutive models were introduced for constitutive modeling and investigation of mechanical behaviors of porous PDLLA/nano-HA. Moreover, the unitary expressions of Cauchy stress tensor have been derived for the PDLLA/nano-HA under uniaxial compression (or stretch), biaxial compression (or stretch), pure shear and simple shear load by using the theory of continuum mechanics. The theoretical results determined from the approach based on the Ogden compressible hyper-elastic constitutive model were in good agreement with the experimental data from the uniaxial compression tests. Furthermore, this approach can also be used to predict the mechanical behaviors of the porous PDLLA/nano-HA material under the biaxial compression (or stretch), pure shear and simple shear.
Related Topics
Physical Sciences and Engineering
Engineering
Biomedical Engineering
Authors
Quan Feng Han, Ze Wu Wang, Chak Yin Tang, Ling Chen, Chi Pong Tsui, Wing Cheung Law,