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Revision as of 15:08, 4 December 2024 editVinx304 (talk | contribs)21 editsm OS and hardware supported: slight changes in wordingTags: Visual edit Newcomer task Newcomer task: copyedit← Previous edit Revision as of 17:45, 7 December 2024 edit undoJamesgava (talk | contribs)5 editsm FE-analysis in MEDINATags: Visual edit Newcomer task Newcomer task: copyeditNext edit →
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'''MEDINA,''' short for '''Model Editor Interactive for Numerical Simulation Analysis''', is a universal pre-post processor for ].<ref>{{cite web |author = T-Systems |url = https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |title = Official Product Information about MEDINA |publisher = T-Systems International GmbH |accessdate = 2011-02-17 |archive-url = https://web.archive.org/web/20110827013807/https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |archive-date = 2011-08-27 |url-status = dead }}</ref><ref>{{cite journal| author= M. Westhäußer | title= Wie kann der Berechnungs-Prozess für Gesamtfahrzeuge verbessert werden?| year=2003 | journal= FEM-, CFD-, und MKS Simulation }}</ref> The development of MEDINA began in the early 1990s at ] based on previous work done at ]. In 2001, ] International GmbH took over the support and development of MEDINA. The current release is MEDINA Rel. 9.0.1.2.<ref>{{cite web|author = T-Systems |url = http://servicenet.t-systems.de/t-systems-plm-de/fem-pre-und-postprozessing-medina-/927008 |title = FEM Pre- und Postprozessing |publisher = T-Systems International GmbH |accessdate = 2017-01-08}}</ref> '''MEDINA,''' an acronym for '''Model Editor Interactive for Numerical Simulation Analysis''', is a universal pre-post processor for ].<ref>{{cite web |author = T-Systems |url = https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |title = Official Product Information about MEDINA |publisher = T-Systems International GmbH |accessdate = 2011-02-17 |archive-url = https://web.archive.org/web/20110827013807/https://servicenet.t-systems.de/tsi/en/290134/Home/T-Systems-PLM-en/T-Systems-PLM-Applications/Analysis-Simulation/MEDINA-PrePost/Product-Information/Download |archive-date = 2011-08-27 |url-status = dead }}</ref><ref>{{cite journal| author= M. Westhäußer | title= Wie kann der Berechnungs-Prozess für Gesamtfahrzeuge verbessert werden?| year=2003 | journal= FEM-, CFD-, und MKS Simulation }}</ref> The development of MEDINA began in the early 1990s at ] building on previous work carried out at ]. In 2001, ] International GmbH took over the support and development of MEDINA. The current release is MEDINA Rel. 9.0.1.2.<ref>{{cite web|author = T-Systems |url = http://servicenet.t-systems.de/t-systems-plm-de/fem-pre-und-postprozessing-medina-/927008 |title = FEM Pre- und Postprozessing |publisher = T-Systems International GmbH |accessdate = 2017-01-08}}</ref>


== Architecture and interfaces == == Architecture and interfaces ==
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* ] * ]


Further, CAD formats can be supported using the solution for 3D data conversion of T-Systems called COM/FOX. Furthermore, additional CAD formats can be supported using T-Systems’ 3-D data conversion solution, COM/FOX


=== FEA interfaces supported === === FEA interfaces supported ===
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=== FE-analysis in MEDINA === === FE-analysis in MEDINA ===
Currently, MEDINA can be used for the following FEA tasks: Currently, MEDINA can be used for the following FEA tasks:
* ] * ]
* durability analysis (thermal and mechanical loading) * Durability analysis (thermal and mechanical loading)
* ] * ]
* simulations about ] and ]. * Simulations about ] and ]


MEDINA consists of two modules: MEDINA consists of two modules:
* a FEM preprocessor (MEDINA.Pre) and * A FEM pre-processor (MEDINA.Pre)
* a FEM postprocessor (MEDINA.Post). * A FEM post-processor (MEDINA.Post)


In the '''preprocessor''', all steps are taken '''before''' the computation can start, i.e.: In the '''pre-processor''', all steps are taken '''before''' the computation can start, i.e.:
* Import of geometry data from CAD system. * Import of geometry data from CAD system
* Import of associated metadata from the CAD-system or ]-system. * Import of associated metadata from the CAD-system or ]-system
* Import of FE-models. * Import of FE-models
* Editing and repair of ] geometry. * Editing and repair of ] geometry
* Meshing. * Meshing
* Model structuring. * Model structuring
* Definition of material parameters. * Definition of material parameters
* Definition of boundary conditions. * Definition of boundary conditions
* Definition of load cases. * Definition of load cases
* Generation of the solver specific input deck. * Generation of the solver specific input deck


In the '''postprocessor''' all steps are taken '''after''' the computation of the primary data of the solver is finished, e.g.: In the '''post-processor''' all steps are taken '''after''' the computation of the primary data of the solver is finished, e.g.:
* Determination of the derived secondary data. * Determination of the derived secondary data
* Illustration of the results (graphics, animations). * Illustration of the results (graphics, animations)
* Export functionalities. * Export functionalities
* Generation of reports. * Generation of reports


== Characteristics of media == == Characteristics of media ==
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Essential design elements to achieve high performance are '''parts structures''' and '''connector elements'''. Essential design elements to achieve high performance are '''parts structures''' and '''connector elements'''.
* Parts enable a 1:1 mapping of the product structure of the ]-/PDM-system within the FE model. * Parts enable a 1:1 mapping of the product structure of the ]-/PDM-system within the FE model
* Connector elements are used for the generic as well as solver and client-specific modeling of assembling techniques like welding, bolting, and bonding.<ref>{{cite journal| author= S. Zhang | title= Simplified Spot Weld Model for NVH Simulations | year=2005| * Connector elements are used for the generic as well as solver and client-specific modeling of assembling techniques like welding, bolting, and bonding<ref>{{cite journal| author= S. Zhang | title= Simplified Spot Weld Model for NVH Simulations | year=2005|
url= http://papers.sae.org/2005-01-0905| url= http://papers.sae.org/2005-01-0905|
journal=SAE International Technical Papers| series= SAE Technical Paper Series | volume= 1 | doi=10.4271/2005-01-0905}}</ref> journal=SAE International Technical Papers| series= SAE Technical Paper Series | volume= 1 | doi=10.4271/2005-01-0905}}</ref>


Within the "model assembly process step," the single FE components (parts structures and connector elements) are merged into the FE model, representing products like vehicles, aircraft, etc. Within the "model assembly process step", the individual FE components (part structures and connector elements) are merged into the FE model, representing products like vehicles, aircraft, etc.


Protocol and script techniques can automate single process steps or complete process chains. Dynamic commands enable the integration of client-specific plugins within MEDINA's standard functionality. Protocol and script techniques can automate single process steps or complete process chains. Dynamic commands enable the integration of client-specific plugins within MEDINA's standard functionality.


== Target groups/user groups == == Target groups/user groups ==
Due to the development roots of MEDINA and the included functionalities for the analysis of huge FE-models, MEDINA is a widely used pre-/post-processor for FE analysis, especially in ]. Due to its development roots and built-in functionalities for analyzing large FE models, MEDINA is widely used as a pre-/post-processor for FE analysis, particularly in the ].


Furthermore, MEDINA is used in ], manufacturing industries, engineering service providers and universities. Furthermore, MEDINA is also used in ], manufacturing, engineering service providers, and universities.


== References == == References ==

Revision as of 17:45, 7 December 2024

Universal pre-/postprocessor for finite element analysis For the city in Saudi Arabia, see Medina. For other uses, see Medina (disambiguation).
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Operating system
MEDINA
DeveloperT-Systems
Source modelClosed source
Latest release9.0.1.2
Marketing targetSimulation tasks in Automotive, Aerospace & Defence, Energy, Manufacturing Industries
LicenseProprietary commercial software
Official websitehttp://servicenet.t-systems.com/medina

MEDINA, an acronym for Model Editor Interactive for Numerical Simulation Analysis, is a universal pre-post processor for finite element analysis. The development of MEDINA began in the early 1990s at Daimler-Benz AG building on previous work carried out at Debis Systemhaus. In 2001, T-Systems International GmbH took over the support and development of MEDINA. The current release is MEDINA Rel. 9.0.1.2.

Architecture and interfaces

MEDINA was designed as a general purpose pre-post processor for various areas of finite element analysis (FEA) supporting most of the common CAD formats, solvers, and operating systems.

CAD formats supported

Currently, the following CAD formats are supported by MEDINA:

Furthermore, additional CAD formats can be supported using T-Systems’ 3-D data conversion solution, COM/FOX

FEA interfaces supported

In the current release, the following solvers are supported by MEDINA:

OS and hardware supported

In its latest release, MEDINA is running with Linux and Microsoft Windows.

FE-analysis in MEDINA

Currently, MEDINA can be used for the following FEA tasks:

MEDINA consists of two modules:

  • A FEM pre-processor (MEDINA.Pre)
  • A FEM post-processor (MEDINA.Post)

In the pre-processor, all steps are taken before the computation can start, i.e.:

  • Import of geometry data from CAD system
  • Import of associated metadata from the CAD-system or PDM-system
  • Import of FE-models
  • Editing and repair of CAD geometry
  • Meshing
  • Model structuring
  • Definition of material parameters
  • Definition of boundary conditions
  • Definition of load cases
  • Generation of the solver specific input deck

In the post-processor all steps are taken after the computation of the primary data of the solver is finished, e.g.:

  • Determination of the derived secondary data
  • Illustration of the results (graphics, animations)
  • Export functionalities
  • Generation of reports

Characteristics of media

MEDINA was designed to support complex simulation tasks and huge FE models—found typically in automotive and aerospace industries—with high performance.

Essential design elements to achieve high performance are parts structures and connector elements.

  • Parts enable a 1:1 mapping of the product structure of the CAD-/PDM-system within the FE model
  • Connector elements are used for the generic as well as solver and client-specific modeling of assembling techniques like welding, bolting, and bonding

Within the "model assembly process step", the individual FE components (part structures and connector elements) are merged into the FE model, representing products like vehicles, aircraft, etc.

Protocol and script techniques can automate single process steps or complete process chains. Dynamic commands enable the integration of client-specific plugins within MEDINA's standard functionality.

Target groups/user groups

Due to its development roots and built-in functionalities for analyzing large FE models, MEDINA is widely used as a pre-/post-processor for FE analysis, particularly in the automotive industry.

Furthermore, MEDINA is also used in aerospace, manufacturing, engineering service providers, and universities.

References

  1. T-Systems. "Official Product Information about MEDINA". T-Systems International GmbH. Archived from the original on 2011-08-27. Retrieved 2011-02-17.
  2. M. Westhäußer (2003). "Wie kann der Berechnungs-Prozess für Gesamtfahrzeuge verbessert werden?". FEM-, CFD-, und MKS Simulation.
  3. T-Systems. "FEM Pre- und Postprozessing [MEDINA]". T-Systems International GmbH. Retrieved 2017-01-08.
  4. H. Kitagawa; T.B. Negretti; J.P. da Silva; K.C. Malavazi (2010). "Product Development Cycle Time Reduction through Geometry Reconstruction from a Finite Element Mesh". SAE International Technical Papers. SAE Technical Paper Series. 1. doi:10.4271/2010-36-0320.
  5. S. Zhang (2005). "Simplified Spot Weld Model for NVH Simulations". SAE International Technical Papers. SAE Technical Paper Series. 1. doi:10.4271/2005-01-0905.

External links

Category: