A comprehensive guide to milling techniques for smoothing the surfaces of 3D-printed thermoplastic parts

Author:

Dilberoglu Ugur Mecid,Yaman Ulas,Dolen Melik

Abstract

Purpose This study aims to thoroughly examine the milling process applied to fused filament fabrication (FFF) parts. The primary objective is to identify the key variables in creating smooth surfaces on FFF specimens and establish trends about specific parameters. Design/methodology/approach In this study, PLA and ABS samples fabricated by FFF are subjected to side milling in several experiments. Achievable surface quality is studied in relation to material properties, milling parameters, tooling and macrostructure. The surface finish is quantified using profile measurements of the processed surfaces. The study classifies the created chips into categories that can be used as criteria for the anticipated quality. Spectral analysis is used to examine the various surface formation modes. Thermal monitoring is used to track chip formation and surface temperature changes during the milling process. Findings This study reveals that effective heat dissipation through proper chip formation is vital for maintaining high surface quality. Recommended methodology demands using a tool with a substantial flute volume, using high positive rake and clearance angles and optimizing the feed-per-tooth and cutting speed. Disregarding these guidelines may cause the surface temperature to surpass the material’s glass transition, resulting in inferior quality characterized by viscous folding. For FFF thermoplastics, optimal milling can bring the average surface roughness down to the micron level. Originality/value This research contributes to the field by providing valuable guidance for achieving superior results in milling FFF parts. This study includes a concise summary of the theoretically relevant insights, presents verification of the key factors by qualitative analysis and offers optimal milling parameters for 3D-printed thermoplastics based on systematic experiments.

Publisher

Emerald

Reference27 articles.

1. Plastics and their machining: a review;Journal of Materials Processing Technology,1995

2. Edge quality in fused deposition modeling: i. Definition and analysis;Rapid Prototyping Journal,2017

3. Finishing of fused deposition modeling parts by CNC machining;Robotics and Computer-Integrated Manufacturing,2016

4. 3D roughness profile model in fused deposition modelling;Rapid Prototyping Journal,2013

5. Ultraprecision machining of polymers;Precision Engineering,1993

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