Abstract
FDM is a typical additive manufacturing method. Since FDM is a method of stacking layers one by one, it generally has a flat lattice structure. In this study, by checking the distribution of stress and deformation for several lattice structures made of ABS material, it is intended to find a structure with better mechanical properties with less material. Several three-dimensional lattice structures are modeled using parametric modeling. Subsequently, a constant pressure is applied to the same area to check the stress and strain distribution. A structure with a low maximum stress value in the stress concentration region and a small amount of deformation will have the best mechanical properties. To do this, parametric modeling is performed using Inventor to model four three-dimensional lattice structures. Afterwards, use Ansys Workbench to check the stress and deformation distribution. Looking at the stress distribution, stress concentration occurred in the truss supporting the upper surface of the SC structure. In the BCC and PTC structures, stress concentration occurred at the point where the upper surface and the truss met. In the FCC structure, it can be seen that the load is distributed throughout the truss structure. Looking at the deformation distribution, both the SC and BCC structures show similar amounts of deformation. It was confirmed that the FCC structure had less maximum deformation than the PTC structure with the thickest truss. Unlike previous studies, it was confirmed that the higher the internal filling rate, the better the mechanical properties may not come out. The FDM method can obtain different mechanical properties depending on the internal lattice structure as well as the internal filling rate. In a later study, we will find a new calculation algorithm that applies variables by FDM characteristics using the data obtained by printing the actual specimen.
Highlights
Additive manufacturing is receiving a lot of attention in that it wastes less material than traditional subtractive manufacturing[1-3]
In this study, a simulation was performed by constructing a lattice with ABS material
Looking at the stress distribution, in the SC structure, a lot of stress concentration occurs in the truss supporting the upper surface
Summary
Additive manufacturing is receiving a lot of attention in that it wastes less material than traditional subtractive manufacturing[1-3]. It is possible to print out parts of complex shape relatively This feature makes it possible to reduce weight while having the appropriate strength and elasticity for the part of the desired shape. Since FDM is a method of outputting a plane layer by layer, it was common to fill the internal structure with a plane pattern This is made into a structure that is more susceptible to a vertical load than to receive a horizontal load in the stacking direction. In order to solve this problem to some extent, if the internal filling structure is composed of a three-dimensional shape, it will be possible to secure similar strength and elasticity for loads in all directions
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