Lattice topology optimization can stimulate the design of new materials with spatially dependent properties with composite parts or three-dimensional printed components. The present work considers a mounting bracket for an industrial robotic arm as a case study, having as the main objective the increase of the fundamental frequency and secondly its mass reduction. Two design approaches were considered by using the ANSYS software: the first stage optimized the orthotropic lattice material by establishing an optimal variable cubic cell lattice density distribution in the geometric model; the second stage used a homogenized model based on the lattice optimization resulted from the previous stage and considered different volume fractions and variable density for four different types of cells. Homogenization increased the stiffness of the bracket by using the same cubic lattice cell and the fundamental frequency increased from 1227 Hz obtained with lattice optimization to 1366 Hz after homogenization. For the unoptimized bracket the fundamental frequency was only 839 Hz. The mass was reduced to more than half. The most effective proved to be the midpoint lattice cell as by homogenization the mass was reduced from 45.5 kg to 18.22 kg.
This paper presents a summary of a live demonstration for a numerical simulation of laser welding process using Ansys Workbench platform. The main steps of this simulation are: creating the geometric model, mesh generation, defining contacts, applying initial conditions and boundary conditions, defining thermal loads, general setting and solving the transient thermal analysis and finally the coupling of this analysis with a structural one to predict stresses due to the thermal field generated by the thermal analysis. After solving, the results are visualized and interpreted.
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