FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS
The Analysis by Finite Element Method (FEM), accomplished using ANSYS software, has the central aims to determine the behavior of a part’s material, geometrically welldefined, of a mechanical, electrical, thermal assembly, subjected to any of external actions, such as physics, mechanical, thermal, e...
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Editura Universităţii din Oradea
2014-09-01
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| Series: | Annals of the Oradea University: Fascicle Management and Technological Engineering |
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| Online Access: | http://imtuoradea.ro/auo.fmte/files-2014-v2/Gavril Grebenisan, Ioan Anton-FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS.pdf |
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doaj-eec179b048ac4c5eab9dc05561a806b32020-11-24T20:41:30ZengEditura Universităţii din OradeaAnnals of the Oradea University: Fascicle Management and Technological Engineering1583-06911583-06912014-09-01XXIII (XIII)10.AUOFMTE.2014-2.30873087FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYSGrebenisan GavrilRADU Ioan EugenAnton IoanThe Analysis by Finite Element Method (FEM), accomplished using ANSYS software, has the central aims to determine the behavior of a part’s material, geometrically welldefined, of a mechanical, electrical, thermal assembly, subjected to any of external actions, such as physics, mechanical, thermal, electrical, and any other, well defined. The material behavior, under conditions well defined, i.e. geometrically or physically, is characterized by thermal deformation results in each element of the mesh, in every node of the network’s element, respectively, subjected to charges due to boundary conditions (constraints and blocking, respectively, thermal or physical agents, external or internal).http://imtuoradea.ro/auo.fmte/files-2014-v2/Gavril Grebenisan, Ioan Anton-FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS.pdfKeywords:finiteelementsmethodsteady-statethermallawsgeometricmodel |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Grebenisan Gavril RADU Ioan Eugen Anton Ioan |
| spellingShingle |
Grebenisan Gavril RADU Ioan Eugen Anton Ioan FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS Annals of the Oradea University: Fascicle Management and Technological Engineering Keywords:finiteelementsmethod steady-state thermallaws geometricmodel |
| author_facet |
Grebenisan Gavril RADU Ioan Eugen Anton Ioan |
| author_sort |
Grebenisan Gavril |
| title |
FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS |
| title_short |
FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS |
| title_full |
FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS |
| title_fullStr |
FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS |
| title_full_unstemmed |
FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS |
| title_sort |
finite elements analysis of thermal steady state, using ansys |
| publisher |
Editura Universităţii din Oradea |
| series |
Annals of the Oradea University: Fascicle Management and Technological Engineering |
| issn |
1583-0691 1583-0691 |
| publishDate |
2014-09-01 |
| description |
The Analysis by Finite Element Method (FEM),
accomplished using ANSYS software, has the central aims to
determine the behavior of a part’s material, geometrically welldefined,
of a mechanical, electrical, thermal assembly,
subjected to any of external actions, such as physics,
mechanical, thermal, electrical, and any other, well defined.
The material behavior, under conditions well defined, i.e.
geometrically or physically, is characterized by thermal
deformation results in each element of the mesh, in every node
of the network’s element, respectively, subjected to charges due
to boundary conditions (constraints and blocking, respectively,
thermal or physical agents, external or internal). |
| topic |
Keywords:finiteelementsmethod steady-state thermallaws geometricmodel |
| url |
http://imtuoradea.ro/auo.fmte/files-2014-v2/Gavril Grebenisan, Ioan Anton-FINITE ELEMENTS ANALYSIS OF THERMAL STEADY STATE, USING ANSYS.pdf |
| work_keys_str_mv |
AT grebenisangavril finiteelementsanalysisofthermalsteadystateusingansys AT raduioaneugen finiteelementsanalysisofthermalsteadystateusingansys AT antonioan finiteelementsanalysisofthermalsteadystateusingansys |
| _version_ |
1716824875650252800 |