Authors: Liedmann, Jan
Gerke, Steffen
Barthold, Franz-Joseph
Brünig, Michael
Title: Shape optimization of the X0-specimen: theory, numerical simulation and experimental verification
Language (ISO): en
Abstract: The paper deals with the gradient based shape optimization of the biaxial X0-specimen, which has been introduced and examined in various papers, under producibility restrictions and the related experimental verification. The original, engineering based design of the X0-specimen has been applied successfully to different loading conditions persisting the question if relevant stress states could be reached by optimizing the geometry. Specimens with the initial as well as with the two load case dependent optimized geometries have been fabricated of the aluminum alloy sheets (AlSi1MgMn; EN AW 6082-T6) and tested. The strain fields in critical regions of the specimens have been recorded by digital image correlation technique. In addition, scanning electron microscope analysis of the fracture surfaces clearly indicate the stress state dependent damage processes. Consequently, the presented gradient based optimization technique facilitated significant improvements to study the damage and fracture processes in a more purposeful way.
Subject Headings: Optimal specimens
Variational sensitivity analysis
Shape optimization
Biaxial experiments
Damage
Stress state dependence
Subject Headings (RSWK): Probe
Sensitivitätsanalyse
Strukturoptimierung
Zweiachsige Beanspruchung
Werkstoffschädigung
Spannungszustand
URI: http://hdl.handle.net/2003/40122
http://dx.doi.org/10.17877/DE290R-21999
Issue Date: 2020-09-20
Rights link: https://creativecommons.org/licenses/by/4.0/
Appears in Collections:Lehrstuhl Baumechanik und Statik

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