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Finite element analysis of structures with extruded aluminum profiles having complex cross sections
WOS: 000387961200005 ; Science Citation Index Expanded ; Extruded aluminum profiles are widely used in building and automation structures due to their durability, lightweight, corrosion resistance, shorter fastening time and reusability. Proper design is crucial in maintaining the lifespan of these structures. It is therefore essential to determine the structural behaviors of the structures such as the natural frequency, mode shape, etc. The finite element analysis is a method which has been commonly used in determining structural behaviors. However, there are also numerous problems in analyzing these kinds of profiles using solid finite elements, such as modeling, meshing, solution time problems, etc. Therefore, beam finite elements have been used in the present study in modeling of the profiles. Furthermore, an equivalent beam element model has been developed for bolt-together connectors of the profiles. Simulation and experimental modal analysis have been conducted on example test systems. It has been demonstrated that this modeling technique is very practical and the results obtained from the method agree well with the experimental results. ; Turkish Scientific and Research Council [110M131] ; The authors would like to acknowledge Turkish Scientific and Research Council (Project number: 110M131) for its financial support of this work.
Finite element analysis of structures with extruded aluminum profiles having complex cross sections
WOS: 000387961200005 ; Science Citation Index Expanded ; Extruded aluminum profiles are widely used in building and automation structures due to their durability, lightweight, corrosion resistance, shorter fastening time and reusability. Proper design is crucial in maintaining the lifespan of these structures. It is therefore essential to determine the structural behaviors of the structures such as the natural frequency, mode shape, etc. The finite element analysis is a method which has been commonly used in determining structural behaviors. However, there are also numerous problems in analyzing these kinds of profiles using solid finite elements, such as modeling, meshing, solution time problems, etc. Therefore, beam finite elements have been used in the present study in modeling of the profiles. Furthermore, an equivalent beam element model has been developed for bolt-together connectors of the profiles. Simulation and experimental modal analysis have been conducted on example test systems. It has been demonstrated that this modeling technique is very practical and the results obtained from the method agree well with the experimental results. ; Turkish Scientific and Research Council [110M131] ; The authors would like to acknowledge Turkish Scientific and Research Council (Project number: 110M131) for its financial support of this work.
Finite element analysis of structures with extruded aluminum profiles having complex cross sections
Güler, Serkan (author) / Karagülle, Hira (author) / Mühendislik ve Doğa Bilimleri Fakültesi / orcid:0000-0002-1552-3432 / Güler, Serkan
2016-01-01
1514
Article (Journal)
Electronic Resource
English
aluminum compounds , reusability , Finite Element Analysis , finite element method , structure (composition) , Aluminum Profile , Structures , behavior , ANSYS , frame , beam finite elements , structural analysis , simulation , Mechanical | Mechanics , aluminum corrosion , structural behaviors , modal analysis , equivalent beam elements , systems , aluminum profiles , Aluminum Structural Framing , corrosion resistance , automation structures , complex cross-sections , experimental modal analysis , Aluminum alloys | Joints (structural components) | Alloy gusset , Engineering , Civil | Engineering
DDC:
690
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