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Mechanical Characterization of Structured Thick Shell Materials
Isohedral tilings offer a unique way of generating a large array of 2D patterns. These patterns have been leveraged to create structured sheet materials combining aesthetic value as well as mechanical functionalities. In this project, we will assign thickness and height to these structures to create thick shell materials.
Keywords: Mechanical characterization, FEM, 3D printing, homogenization
Isohedral tilings offer a unique way of generating a large array of 2D patterns. These patterns have been leveraged to create structured sheet materials combining aesthetic value as well as mechanical functionalities. In this project, we will assign thickness and height to these structures to create thick shell materials.
Isohedral tilings offer a unique way of generating a large array of 2D patterns. These patterns have been leveraged to create structured sheet materials combining aesthetic value as well as mechanical functionalities. In this project, we will assign thickness and height to these structures to create thick shell materials.
The goal of this project is to build a computational model to simulate and characterize the mechanical properties of a class of so-called "thick shell" structures and to develop a design tool for finding structures with desired.
material responses.
The goal of this project is to build a computational model to simulate and characterize the mechanical properties of a class of so-called "thick shell" structures and to develop a design tool for finding structures with desired. material responses.