Comparisons of Linear and Nonlinear FEA of Adhesively Bonded Beams

Xiao Cong He

doi:10.4028/www.scientific.net/AMR.1088.763

Paper Titles

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The Process Optimization of Cast Copper Stave Based on ProCAST
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Effect of Surface Roughness on the Shear and Tensile Strength of Hardwood Adhesive Joints: A Linear Elastic Model
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Shear Stress Discontinuities in Adhesive Joints
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Comparisons of Linear and Nonlinear FEA of Adhesively Bonded Beams
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Effect of Adhesive Behavior on Normal Stress Distributions in the Single-Lap Adhesive Joints
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Research Concerning the Influence of Contact Tip-to-Work Distance (CTWD) on Penetration, Bead Height, Bead Width - Study Case GMAW Cladding
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Experimental Study on the Surface Cutting Mechanical Properties of Single Crystal Silicon in Micro-Nano Scale
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Effect of Parapet Hole on Tundish Flow Field
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1088Comparisons of Linear and Nonlinear FEA of...

Comparisons of Linear and Nonlinear FEA of Adhesively Bonded Beams

Abstract:

The effect of boundary conditions on the stress distributions in single-lap adhesively bonded cantilevered beams has been investigated using the three-dimensional linear static and non-linear quasi-static finite element method. The displacement obtained from the linear static and the non-linear quasi-static analyses are compared under the same deformation scale factor for three typical boundary conditions. The analysis results indicate that there are significant differences between the linear static and non-linear quasi-static analyses only if there are significant bending effect on the bonded section. The bigger the bending effect on the bonded section, the bigger the difference between the linear static and non-linear quasi-static analyses.