Three Dimentional Printing of Highly Porous Metamaterials Based on Polyurethane/Tricalcium Phosphate Composite for Tissue Engineering, M.Sc. Thesis Sharif University of Technology ; Simchi, AbdolReza (Supervisor) ; Tavakoli, Rouhollah (Supervisor)
Abstract
In the last decade, mechanical metamaterials have attracted more attention due to new design principles that combine the concept of hierarchical architecture with material size effects at the micro or nano scale. This strategy shows extraordinary mechanical performance that we use in unknown parts of the material property space, including strength-to-density ratios, extraordinary flexibility, and the ability to absorb energy with brittle components. The aim of this research was to print metamaterial scaffolds from a combination of biocompatible and bioactive to be used as scaffolds in bone tissue engineering. In addition to the biological properties appropriate to the host tissue, the...
Cataloging briefThree Dimentional Printing of Highly Porous Metamaterials Based on Polyurethane/Tricalcium Phosphate Composite for Tissue Engineering, M.Sc. Thesis Sharif University of Technology ; Simchi, AbdolReza (Supervisor) ; Tavakoli, Rouhollah (Supervisor)
Abstract
In the last decade, mechanical metamaterials have attracted more attention due to new design principles that combine the concept of hierarchical architecture with material size effects at the micro or nano scale. This strategy shows extraordinary mechanical performance that we use in unknown parts of the material property space, including strength-to-density ratios, extraordinary flexibility, and the ability to absorb energy with brittle components. The aim of this research was to print metamaterial scaffolds from a combination of biocompatible and bioactive to be used as scaffolds in bone tissue engineering. In addition to the biological properties appropriate to the host tissue, the...
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