Journal
MATERIALS
Volume 10, Issue 8, Pages -Publisher
MDPI AG
DOI: 10.3390/ma10080911
Keywords
syntactic foam; effective properties; computational materials science; interface; finite element method; micromechanics
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Funding
- Korea Institute of Industrial Technology as Development of metal powder large-area DED process including pre- and post-processes based on simulations [KITECH-EO-17-0041]
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The effect of interfacial bonding of glass hollow microspheres and a polymer matrix on the elastic properties of syntactic foam was investigated using representative volume element (RVE) models, including partially debonded interfaces. Finite element analysis, with models having different debonding geometries, was performed to numerically estimate the elastic behavior of the models. The models consisted of bonded and debonded regions of interfaces; the bonded region was treated as the perfectly bonded interface, while the Coulomb friction model was used to describe the debonded region with a small friction coefficient. The changes in the tensile and compressive moduli of the foams were investigated in terms of the degree of interfacial debonding and debonding geometry.
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