Comparative Analysis of Minimum Chip Thickness, Surface Quality and Burr Formation in Micro-Milling of Wrought and Selective Laser Melted Ti64

• Published in: Micromachines (Basel) Vol. 14; no. 6; p. 1160
• Main Authors: Karakılınç, Uçan, Ergene, Berkay, Yalçın, Bekir, Aslantaş, Kubilay, Erçetin, Ali
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 30.05.2023; MDPI
• Subjects: Alloys; casting; Comparative analysis; Cutting force; Cutting parameters; Experiments; Feed rate; Hardness; Laser beam melting; Lasers; Machinability; Manufacturing; micro-milling; Milling (machining); Powder metallurgy; Production methods; Residual stress; selective laser melting; Strain hardening; Surface finish; Surface properties; surface quality; Surface roughness; Tensile strength; Thickness; Three dimensional printing; Ti64; Titanium alloys; Titanium base alloys; Workpieces; United Kingdom; micro-milling; selective laser melting; casting; Ti64; surface quality
• ISSN: 2072-666X; 2072-666X
• DOI: 10.3390/mi14061160

Selective laser melting (SLM) is a three-dimensional (3D) printing process that can manufacture functional parts with complex geometries as an alternative to using traditional processes, such as machining wrought metal. If precision and a high surface finish are required, particularly for creating miniature channels or geometries smaller than 1 mm, the fabricated parts can be further machined. Therefore, micro milling plays a significant role in the production of such miniscule geometries. This experimental study compares the micro machinability of Ti-6Al-4V (Ti64) parts produced via SLM compared with wrought Ti64. The aim is to investigate the effect of micro milling parameters on the resulting cutting forces (F , F , and F ), surface roughness (R and R ), and burr width. In the study, a wide range of feed rates was considered to determine the minimum chip thickness. Additionally, the effects of the depth of cut and spindle speed were observed by taking into account four different parameters. The manufacturing method for the Ti64 alloy does not affect the minimum chip thickness (MCT) and the MCT for both the SLM and wrought is 1 μm/tooth. SLM parts exhibit acicular α martensitic grains, which result in higher hardness and tensile strength. This phenomenon prolongs the transition zone of micro-milling for the formation of minimum chip thickness. Additionally, the average cutting force values for SLM and wrought Ti64 fluctuated between 0.072 N and 1.96 N, depending on the micro milling parameters used. Finally, it is worth noting that micro-milled SLM workpieces exhibit lower areal surface roughness than wrought ones.