Section 61
Chapter 60,117

Predicting the mechanical properties of brittle porous materials with various porosity and pore sizes

Cui, Z.; Huang, Y.; Liu, H.

Journal of the Mechanical Behavior of Biomedical Materials 71: 10-22


ISSN/ISBN: 1878-0180
PMID: 28259024
DOI: 10.1016/j.jmbbm.2017.02.014
Accession: 060116461

In this work, a micromechanical study using the lattice spring model (LSM) was performed to predict the mechanical properties of BPMs by simulation of the Brazilian test. Stress-strain curve and Weibull plot were analyzed for the determination of fracture strength and Weibull modulus. The presented model composed of linear elastic elements is capable of reproducing the non-linear behavior of BPMs resulting from the damage accumulation and provides consistent results which are in agreement with experimental measurements. Besides, it is also found that porosity shows significant impact on fracture strength while pore size dominates the Weibull modulus, which enables us to establish how choices made in the microstructure to meet the demand of brittle porous materials functioning in various operating conditions.

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