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Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes: Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für...

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Authors and Corporations: Scheffler, Christian, Neugebauer, Reimund, Brosius, Alexander, Drossel, Welf-Guntram
Title: Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes: Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
Dissertation Note: Dissertation, Technische Universität Chemnitz, 2020
Type of Resource: E-Book Thesis
Language: English
published:
Online-Ausg.. 2021
Subjects:
Source: Qucosa
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245 |a Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes  |b Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse 
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520 |a Electromagnetic welding is an innovative, high-speed technology to manufacture mixed material joints. In this dissertation, an experimental-numerical method is presented to identify robust process windows of aluminum-copper and aluminum-steel compounds. The microstructural characteristics of these joints were investigated in detail. Moreover, an evaluation of the joint quality is presented and different numerical models were introduced for the simulation of macroscopic and microscopic effects. To improve the accuracy of the simulations, the strain rate sensitivity of the materials must be considered. For this purpose a high-speed setup for the identification of relevant viscoplastic material parameters, comprising an inverse evaluation strategy, was developed. 
650 |a Electromagnetic Welding 
650 |a Electromagnetic Pulse Welding 
650 |a Process Window 
650 |a Dissimilar Materials 
650 |a Bonding Mechanism 
650 |a Process Simulation 
650 |a High Speed 
650 |a Strain Rate Dependency 
650 |a Viscoplasticity 
650 |a Material Parameter Identification 
650 |a Schweißen 
650 |a Stoffwert 
650 |a Finite-Elemente-Methode 
650 |a Hybridwerkstoff 
650 |a Aluminium 
650 |a Stahl 
655 |a Hochschulschrift  |2 gnd-content 
700 |a Neugebauer, Reimund 
700 |a Neugebauer, Reimund 
700 |a Brosius, Alexander 
700 |a Drossel, Welf-Guntram 
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author Scheffler, Christian
author2 Neugebauer, Reimund, Neugebauer, Reimund, Brosius, Alexander, Drossel, Welf-Guntram
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author_facet Scheffler, Christian, Neugebauer, Reimund, Neugebauer, Reimund, Brosius, Alexander, Drossel, Welf-Guntram
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author_sort Scheffler, Christian
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contents Electromagnetic welding is an innovative, high-speed technology to manufacture mixed material joints. In this dissertation, an experimental-numerical method is presented to identify robust process windows of aluminum-copper and aluminum-steel compounds. The microstructural characteristics of these joints were investigated in detail. Moreover, an evaluation of the joint quality is presented and different numerical models were introduced for the simulation of macroscopic and microscopic effects. To improve the accuracy of the simulations, the strain rate sensitivity of the materials must be considered. For this purpose a high-speed setup for the identification of relevant viscoplastic material parameters, comprising an inverse evaluation strategy, was developed.
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spelling Scheffler, Christian, Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse, txt, nc, Online-Ausg. 2021 Online-Ressource (Text) Technische Universität Chemnitz, Dissertation Technische Universität Chemnitz 2020, Electromagnetic welding is an innovative, high-speed technology to manufacture mixed material joints. In this dissertation, an experimental-numerical method is presented to identify robust process windows of aluminum-copper and aluminum-steel compounds. The microstructural characteristics of these joints were investigated in detail. Moreover, an evaluation of the joint quality is presented and different numerical models were introduced for the simulation of macroscopic and microscopic effects. To improve the accuracy of the simulations, the strain rate sensitivity of the materials must be considered. For this purpose a high-speed setup for the identification of relevant viscoplastic material parameters, comprising an inverse evaluation strategy, was developed., Electromagnetic Welding, Electromagnetic Pulse Welding, Process Window, Dissimilar Materials, Bonding Mechanism, Process Simulation, High Speed, Strain Rate Dependency, Viscoplasticity, Material Parameter Identification, Schweißen, Stoffwert, Finite-Elemente-Methode, Hybridwerkstoff, Aluminium, Stahl, Hochschulschrift gnd-content, Neugebauer, Reimund, Brosius, Alexander, Drossel, Welf-Guntram, text/html https://nbn-resolving.org/urn:nbn:de:bsz:ch1-qucosa2-751986 Online-Zugriff
spellingShingle Scheffler, Christian, Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes: Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse, Electromagnetic welding is an innovative, high-speed technology to manufacture mixed material joints. In this dissertation, an experimental-numerical method is presented to identify robust process windows of aluminum-copper and aluminum-steel compounds. The microstructural characteristics of these joints were investigated in detail. Moreover, an evaluation of the joint quality is presented and different numerical models were introduced for the simulation of macroscopic and microscopic effects. To improve the accuracy of the simulations, the strain rate sensitivity of the materials must be considered. For this purpose a high-speed setup for the identification of relevant viscoplastic material parameters, comprising an inverse evaluation strategy, was developed., Electromagnetic Welding, Electromagnetic Pulse Welding, Process Window, Dissimilar Materials, Bonding Mechanism, Process Simulation, High Speed, Strain Rate Dependency, Viscoplasticity, Material Parameter Identification, Schweißen, Stoffwert, Finite-Elemente-Methode, Hybridwerkstoff, Aluminium, Stahl, Hochschulschrift
title Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes: Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_auth Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_full Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_fullStr Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_full_unstemmed Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_short Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes
title_sort electromagnetic pulse welding process and material parameter identification for high speed processes elektromagnetischer pulsschweißprozess und materialparameteridentifikation für hochgeschwindigkeitsprozesse
title_sub Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
title_unstemmed Electromagnetic Pulse Welding Process and Material Parameter Identification for High Speed Processes: Elektromagnetischer Pulsschweißprozess und Materialparameteridentifikation für Hochgeschwindigkeitsprozesse
topic Electromagnetic Welding, Electromagnetic Pulse Welding, Process Window, Dissimilar Materials, Bonding Mechanism, Process Simulation, High Speed, Strain Rate Dependency, Viscoplasticity, Material Parameter Identification, Schweißen, Stoffwert, Finite-Elemente-Methode, Hybridwerkstoff, Aluminium, Stahl, Hochschulschrift
topic_facet Electromagnetic Welding, Electromagnetic Pulse Welding, Process Window, Dissimilar Materials, Bonding Mechanism, Process Simulation, High Speed, Strain Rate Dependency, Viscoplasticity, Material Parameter Identification, Schweißen, Stoffwert, Finite-Elemente-Methode, Hybridwerkstoff, Aluminium, Stahl, Hochschulschrift
url https://nbn-resolving.org/urn:nbn:de:bsz:ch1-qucosa2-751986
urn urn:nbn:de:bsz:ch1-qucosa2-751986
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