فهرس المقالات Experimental analysis

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  1 - Numerical and Experimental Study of Buckling of Rectangular Steel Plates with a Cutout
  M Shariati Y Faradjian H Mehrabi
  Steel plates are used in various structures, such as the structures of the deck and body of ships, bridges, and aerospace industry. In this study, we investigate the buckling and post-buckling behavior of rectangular steel plates having circular cutouts with two boundar أکثر

  Steel plates are used in various structures, such as the structures of the deck and body of ships, bridges, and aerospace industry. In this study, we investigate the buckling and post-buckling behavior of rectangular steel plates having circular cutouts with two boundary conditions: first, clamped supports at upper and lower ends and free supports at other edges; second, clamped supports at upper and lower ends and simply supports at other edges, using finite element method (by ABAQUS software) and experimental tests(by an INSTRON servo hydraulic machine). In this research, in addition to the aspect ratio, the effect of changing the location of the cutout on the buckling analysis is investigated. The results of both numerical and experimental analyses are compared and showing a very good agreement between them. تفاصيل المقالة
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  2 - Experimental Analysis of Crashworthiness Behavior of Energy Absorber Tubes Under 3D Oblique Load
  ابوالفضل خلخالی علیرضا سالور
  Actual applications of the energy absorbers showed that actual loads are not applied in the form of pure axial compression, pure bending or pure torsion. In reality, an energy absorber component may be subjected to combined loading of compression, bending and torsion. A أکثر

  Actual applications of the energy absorbers showed that actual loads are not applied in the form of pure axial compression, pure bending or pure torsion. In reality, an energy absorber component may be subjected to combined loading of compression, bending and torsion. A number of previous articles have investigated the behavior of energy absorbers under oblique loading. In such cases, the oblique load was considered as 2D load determined with one angle parameter to the profile of specimen. However, in reality, it is possible that the energy absorber component be under a 3D oblique load condition with three spatial components determined by two angle parameter in 3D space. In present paper, crashworthiness behavior of thin walled tubes is experimentally analyzed under 3D oblique load. To perform this job, a fixture was designed and installed on the universal tensile and compression testing machine. All tests were conducted in quasi-static form and finally a diagram of force and displacement and crushing modes were extracted and the effect of oblique load aspects on energy absorbing characteristics was investigated. تفاصيل المقالة