Dynamic Analysis of Elastically Supported Cracked Beam Subjected to a Concentrated Moving Load

AUTOR(ES)

Ozturk, Hasan, Kiral, Zeki, Kiral, Binnur Goren

FONTE

Lat. Am. j. solids struct.

DATA DE PUBLICAÇÃO

2016-01

RESUMO

Abstract This study deals with the dynamic behavior of a cracked beam subjected to a concentrated force traveling at a constant velocity. Dynamic analyses for a hinged-hinged cracked beam resting on elastic supports under the action of a moving load are carried out by the finite element method. For the beam having rectangular cross-section, element formulation for crack element is developed by using the principles of fracture mechanics. In the numerical analysis, Newmark integration method is employed in order to calculate the dynamic response of the beam. The effects of crack depth, crack location, elastic support and load velocity on the dynamic displacements calculated for different locations on the beam are investigated. The results related to the dynamic response of the beam are presented in 3D graphs.

Documentos Relacionados

• Flexural motions under moving concentrated masses of elastically supported rectangular plates resting on variable winkler elastic foundation
• Dynamic behaviour under moving concentrated masses of simply supported rectangular plates resting on variable Winkler elastic foundation
• Optimization of structures subjected to dynamic load: deterministic and probabilistic methods
• Analise dinamica, numerica e experimental de uma viga trincada
• Finite element analysis of high modal dynamic responses of a composite floor subjected to human motion under passive live load