Droplet Formation and Energy Input during Induction Wire Melting with Pulsed and Constant Generator Power
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Published:2024-04-18
Issue:2
Volume:8
Page:80
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ISSN:2504-4494
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Container-title:Journal of Manufacturing and Materials Processing
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language:en
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Short-container-title:JMMP
Author:
Kimme Jonas1ORCID, Gruner Jonas1ORCID, Hälsig André2ORCID, Hensel Jonas2ORCID
Affiliation:
1. Institute for Machine Tools and Production Processes (IWP), Chemnitz University of Technology, Reichenhainer Straße 70, 09126 Chemnitz, Germany 2. Institute for Joining and Assembly (IFMT), Chemnitz University of Technology, Reichenhainer Straße 70, 09126 Chemnitz, Germany
Abstract
Induction heating is a fast, reproducible, and efficient heating method used in various manufacturing processes. However, there is no established additive manufacturing (AM) process based on induction heating using wire as feedstock. This study investigates a novel approach to AM based on inductive heating, where a steel wire is melted and droplets are detached periodically using a two-winding induction coil. The process parameters and energy input into the droplets are characterized. The induction generator exhibits a sluggish response to the excitation voltage, resulting in a lag in the coil current. The process is captured using a high-speed camera, revealing a regular droplet formation of 14 Hz and uniform shapes and sizes between 2.11 and 2.65 mm in diameter when operated within an appropriate process window. Larger drops and increased spatter formation occur outside this window. The proposed method allows for the production of droplets with almost spherical shapes. Further analysis and characterization of droplet formation and energy input provide insights into process optimization and indicate an overall efficiency of approximately 10%.
Funder
German Federal Ministry for Economic Affairs and Climate Action
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