Mechanical properties of regular hexahedral lattice structure formed by selective laser melting.

Autor: Jianfeng Sun, Yongqiang Yang, Di Wang
Zdroj: Laser Physics; 2013, Vol. 23 Issue 6, p1-9, 9p
Abstrakt: The Ti-6Al-4V lattice structure is widely used in the aerospace field. This research first designs a regular hexahedral unit, processes the lattice structure composed of the Ti-6Al-4V units by selective laser melting technology, obtains the experimental fracture load and the compression deformation of them through compression tests, then conducts a simulation of the unit and the lattice structure through ANSYS to analyze the failure point. Later, according to the force condition of the point, the model of maximum load is built, through which the analytical formula of the fracture load of the unit and the lattice structure are obtained. The results of groups of experiments demonstrate that there exists an exponential relationship between the practical fracture load and the porosity of the lattice structure. There also exists a trigonometric function relationship between the compression deformation and the porosity of the lattice structure. The fracture analysis indicates that fracture of the units and lattice structure is brittle fracture due to cleavage fracture. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index