Litcius/Paper detail

Experimental evaluation and optimization of parameters affecting delamination, geometrical tolerance and surface roughness in ultrasonic drilling of 3D-Printed PLA thermoplastic

Mohammad Baraheni, Mohammad Reza Shabgard, Saeid Amini, Farid Gholipour

2024Journal of Thermoplastic Composite Materials12 citationsDOI

Abstract

Ultrasonic drilling is a suitable process to enhance the generated surfaces by additive manufacturing. In this study, polylactic acid was selected as the workpiece. The examination parameters were thrust force, delamination, geometrical tolerance, chip adhesion, hole wall morphology and surface roughness. It was explained that the harmonic movement of drill bit in ultrasonic drilling reduced thrust force, delamination, circularity, cylindricality and surface roughness up to 14.5%, 3.7%, 44%, 38%, 20% respectively and removed chip adhesion. Furthermore, number of end-mill flutes was examined and observed that 4-flutes compared to 2-flutes induced reduction in thrust force, delamination, circularity, cylindricality and surface roughness up to 15.2%, 2%, 7.5%, 18.9%, 12.5% respectively. Besides, analysis of variance was established to determine the significant parameters. Finally, non-dominated sorting genetic algorithm-II technique was implemented in order to carry out multi-response optimization.

Topics & Concepts

Materials scienceComposite materialDelamination (geology)Surface roughnessThermoplasticUltrasonic sensorDrillingSurface finishAcousticsMetallurgyGeologySubductionPaleontologyPhysicsTectonicsAdvanced machining processes and optimizationAdvanced Machining and Optimization TechniquesAdditive Manufacturing and 3D Printing Technologies