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Imgrund, Philipp
Fraunhofer Research Institution for Additive Manufacturing Technologies IAPT
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Publications (5/5 displayed)
- 2024Influence of Different Powder Conditioning Strategies on Metal Binder Jetting with Ti-6Al-4Vcitations
- 2022Piston-Based Material Extrusion of Ti-6Al-4V Feedstock for Complementary Use in Metal Injection Moldingcitations
- 2022HDPE@UHMWPE Powders for Power Bed Fusion Based Additive Manufacturingcitations
- 2022Disentangled UHMWPE@silica powders for potential use in power bed fusion based additive manufacturingcitations
- 2016Metal Injection Moulding of NdFeB Based on Recycled Powders
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article
Piston-Based Material Extrusion of Ti-6Al-4V Feedstock for Complementary Use in Metal Injection Molding
Abstract
Art. 351, 19 S. ; Piston-based material extrusion enables cost savings for metal injection molding users when it is utilized as a complementary shaping process for green parts in small batch sizes. This, however, requires the use of series feedstock and the production of sufficiently dense green parts in order to ensure metal injection molding-like material properties. In this paper, a methodological approach is presented to identify material-specific process parameters for an industrially used Ti-6Al-4V metal injection molding feedstock based on the extrusion force. It was found that for an optimum extrusion temperature of 95⦠C and printing speed of 8 mm/s an extrusion force of 1300 N ensures high-density green parts without under-extrusion. The resulting sintered part properties exhibit values comparable to metal injection molding in terms of part density (max. 99.1%) and tensile properties (max. yield strength: 933 MPa, max. ultimate tensile strength: 1000 MPa, max. elongation at b reak: 18.5%) depending on the selected build orientation. Thus, a complementary use could be demonstrated in principle for the Ti-6Al-4V feedstock. ; 15 ; Nr.1