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== Abstract ==
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Unified formulation to solve fluid-structure interaction and multi-fluids problems are gaining popularity in many engineering applications, in particular for material forming processes. Indeed, it simplifies different issues related to mesh generation and boundary conditions and increases the flexibility to deal with multiscale problems.
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We propose in this work a monolithic formulation where the complete problem is written in a fully Eulerian framework and the phases (fluid, solid,…) are separated by a level set function. The obtained system is solved using stabilized finite element methods. We combine this approximation with time-dependent anisotropic mesh adaptation to ensure accurate capturing of the discontinuities at the interfaces.
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Different use of the levelset function ranging from, grain growth models for the evolutions of microstructure or void disclosure induced by forming operations, to the heat treatment of immersed metallic-alloys inside three-dimensional industrial furnaces will be presented. The advantages and the encountered numerical issues as well as the ongoing investigations related to these formulations will be discussed.
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== Recording of the presentation ==
 
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| Recording of the presentation
 
 
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| {{#evt:service=youtube|id=https://youtu.be/G3s4E-vI2u0 alignment=center}}
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| {{#evt:service=youtube|id=https://youtu.be/G3s4E-vI2u0 | alignment=center}}
 
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|- style="text-align: center;"  
 
| Location: San Servolo Complex.  
 
| Location: San Servolo Complex.  
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| Date: 18 - 20 May 2015, San Servo Island, Venice, Italy.
 
| Date: 18 - 20 May 2015, San Servo Island, Venice, Italy.
 
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== General Information ==
 
== General Information ==
 
* Location: San Servolo Complex, Venice, Italy.
 
* Location: San Servolo Complex, Venice, Italy.
 
* Date: 18 - 20 May 2015, San Servo Island, Venice, Italy.
 
* Date: 18 - 20 May 2015, San Servo Island, Venice, Italy.
* Secretariat: [//www.cimne.com/ CIMNE] Centre Internacional de Metodes Numerics.
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* Secretariat: [//www.cimne.com/ International Center for Numerical Methods in Engineering (CIMNE)].
  
 
== External Links ==
 
== External Links ==
 
* [//congress.cimne.com/coupled2015/frontal/default.asp IV Coupled] Official Website of the Conference.
 
* [//congress.cimne.com/coupled2015/frontal/default.asp IV Coupled] Official Website of the Conference.
 
* [//www.cimnemultimediachannel.com/ CIMNE Multimedia Channel]
 
* [//www.cimnemultimediachannel.com/ CIMNE Multimedia Channel]

Revision as of 10:40, 19 July 2016

Abstract

Unified formulation to solve fluid-structure interaction and multi-fluids problems are gaining popularity in many engineering applications, in particular for material forming processes. Indeed, it simplifies different issues related to mesh generation and boundary conditions and increases the flexibility to deal with multiscale problems.

We propose in this work a monolithic formulation where the complete problem is written in a fully Eulerian framework and the phases (fluid, solid,…) are separated by a level set function. The obtained system is solved using stabilized finite element methods. We combine this approximation with time-dependent anisotropic mesh adaptation to ensure accurate capturing of the discontinuities at the interfaces.

Different use of the levelset function ranging from, grain growth models for the evolutions of microstructure or void disclosure induced by forming operations, to the heat treatment of immersed metallic-alloys inside three-dimensional industrial furnaces will be presented. The advantages and the encountered numerical issues as well as the ongoing investigations related to these formulations will be discussed.

Recording of the presentation

Location: San Servolo Complex.
Date: 18 - 20 May 2015, San Servo Island, Venice, Italy.

General Information

External Links

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Published on 30/06/16

Licence: CC BY-NC-SA license

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