Piezo-metal-composites in structural parts: Technological design, process simulation and material modelling

Subject is the development of a process chain for the production of semi-finished parts with an integrated sensor and actuator functionality and the forming of those to structural parts. Aiming on a non-damaging forming of the integrated piezo module, a swimming-bed inside the piezo-metal-composite...

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Hauptverfasser:	Hensel, Sebastian, Drossel, Welf-Guntram, Ihlemann, Jörg, Lachmann, Lutz, Landgraf, R, Neugebauer, Reimund, Nestler, Matthias
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	curing model forming friction simulation LS-Dyna orthotropic friction model piezo-metal-compound
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creator	Hensel, Sebastian Drossel, Welf-Guntram Ihlemann, Jörg Lachmann, Lutz Landgraf, R Neugebauer, Reimund Nestler, Matthias
description	Subject is the development of a process chain for the production of semi-finished parts with an integrated sensor and actuator functionality and the forming of those to structural parts. Aiming on a non-damaging forming of the integrated piezo module, a swimming-bed inside the piezo-metal-composite is used. The hardening of adhesive surrounding the piezo module between the sheet-metal and the cover-layer takes place after the forming operation. The choice of an applicable adhesive and an application-oriented design of the compound influences the production process as well as the functionality of the compound. By employing a material model for the adhesive and a global forming simulation, including the loads taking effect on the piezo module, a comparison between the numerical simulation and experimental studies is possible. Furthermore, the results of simulation give information about the characteristics of the composite. A subsequent test of functionality will allow the definition of best suitable process parameters and the evaluation of the composites performance dependent on its design.
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subjects	curing model forming friction simulation LS-Dyna orthotropic friction model piezo-metal-compound
title	Piezo-metal-composites in structural parts: Technological design, process simulation and material modelling
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