Surface Integrity of Machined Electron Beam Melted Ti6Al4V Alloy Manufactured with Different Contour Settings and Heat Treatment
Autor: | Axel Bergström, Peter Krajnik, Dinesh Mallipeddi, Tina Hajali, Sinuhé Hernández, Lars-Erik Rännar, Emil Strandh, Lars Nyborg |
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Rok vydání: | 2020 |
Předmět: |
0209 industrial biotechnology
Materials science Machining Ti6Al4V Machinability Titanium alloy Allowance (engineering) Materials Engineering 02 engineering and technology 010501 environmental sciences 01 natural sciences Surface integrity Contour settings 020901 industrial engineering & automation Machining Hot isostatic pressing Residual stress Electron Beam Melting (EBM) Materialteknik Surface roughness General Earth and Planetary Sciences Composite material 0105 earth and related environmental sciences General Environmental Science |
Zdroj: | Procedia CIRP. 87:327-332 |
ISSN: | 2212-8271 |
Popis: | The powder-bed-fusion-based Electron Beam Melting (EBM) is rapidly gaining interest as a feasible process in the manufacturing industry for producing intricate Ti6Al4V components. However, there is still a challenge of reducing production time and optimizing surface roughness. One way to improve surface roughness is to optimize the melting strategy, i.e. contour setting. This not only influences the obtained surface topographical features, but also the production time. Most industrial applications require subtractive post processing (machining) to obtain a desired functional surface. This paper is concerned with analysing surface and subsurface in turning of Ti6Al4V alloy, manufactured by EBM using different contour settings. Also, the effect of subsequent heat treatment, i.e. Hot Isostatic Pressing (HIP) is studied. The results indicate that avoiding of contours require a machining allowance of 1 mm to obtain surface roughness of about 0.5 μm (Sa). In case of three and five contours the machining allowance can be reduced to 0.25 mm. Microstructural differences originating from the subsequent HIP operation show no effect on machinability. Tensile residual stresses are generated when reaching down to the heat effected zone of contour settings. |
Databáze: | OpenAIRE |
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