| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 782506 | International Journal of Mechanical Sciences | 2013 | 9 Pages |
The mechanical properties of micro-lattice structures subjected to a normal stress state are investigated using both a classical beam theory approach and the finite element technique. In particular, an approach for predicting the yield surface of lattice structures subjected to either a uniaxial or a biaxial stress state is proposed. In addition, the geometrical and material conditions for the occurrence of elastic buckling under a triaxial stress state are identified. The stiffness and plastic collapse strengths of the micro-lattice structures are compared with the corresponding properties of other lightweight structures. It is shown that micro-lattices offer significant potential for use in the design of lightweight cellular structures.
► This paper provides the estimation equations of mechanical properties for the micro-lattice. ► The estimated mechanical properties agree well with numerical results using FE analysis. ► The conditions for the occurrence of elastic buckling under a triaxial stress state are identified. ► This structure can offer significant potential for use in the design of lightweight structures.
