Abstract
Fused Deposition Modelling (FDM) is presently the most common utilized 3D printing technology. Since this printing technology makes the bodies anisotropic, therefore, investigate the process with different settings is worthwhile. Tensile test specimens of two plastics have been carried out to examine the mechanical properties. Polylactic acid (PLA) and High Temperature PLA (HT-PLA) are the used materials for this purpose. A total of seventy-two test pieces of the two used polymers were printed and evaluated. Three parameters were examined in twelve different settings when printing the tensile test specimens. The considered settings are; six raster directions, three build orientations and two filling factors. The differences in stress-strain curves, tensile strength values and elongation at break were compared among the tested samples. The broken specimens after the tensile test are illustrated, which gave insight into how the test pieces printed with different parameters were fractured. The optimum printing setting is represented at crossed 45/−45° raster direction, X orientation and 100 % fill factor, where the highest tensile strength of 59.7 MPa at HT-PLA and the largest elongation of about 3.5 % at PLA were measured.
Highlights
1 Introduction The 3D printing is an additive manufacturing process starts with a 3D model of a body that is produced using CAD software or scans an existing object
There are several 3D printing technologies, all of which are based on a different principle of the three-dimensional body
More than 70 tensile test specimens were printed with different settings and measured their values of tensile strength and elongation at break
Summary
The 3D printing is an additive manufacturing process starts with a 3D model of a body that is produced using CAD software or scans an existing object. This model must be converted to STL (Stereolithography) file format [1]. A specialized software slices the model horizontally to produce body cross-sections for each height that is transmitted from the computer to the 3D printer. These slices represent the two-dimensional contour of the model, which if put together, will release the original three-dimensional body. The three-dimensional body has anisotropic properties [5]
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