Stress in closed thin-walled tubes of single box subjected by shear forces and application to airfoils
Journal: Journal of Materials and Engineering Structures (JMES) (Vol.1, No. 2)Publication Date: 2014-09-10
Authors : Zebbiche Toufik; Boun-jad Mohamed; Allali Abderrazak;
Page : 73-88
Keywords : Thin Wall; Shear center; Shear stress; Airfoil section.;
Abstract
The presented work is to develop a numerical computation program to determine the distribution of the shear stress to shear in closed tubes with asymmetric single thin wall section with a constant thickness and applications to airfoils and therefore determining the position and value of the maximum stress. In the literature, there are exact analytical solutions only for some sections of simple geometries such as circular section. Hence our interest is focused on the search of approximate numerical solutions for more complex sections used in aeronautics. In the second stage the position of the shear center is determined so that the section does not undergo torsion. The analytic function of the boundary of the airfoil is obtained by using the cubic spline interpolation since it is given in the form of tabulated points.
Other Latest Articles
- The effect of paste volume and concrete properties on size independent fracture energy
- Cylindrical bending of orthotropic plate strip based on nth-order plate theory
- Coupling Neumann development and component mode synthesis methods for stochastic analysis of random structures
- THE PSYCHOLOGICAL SECURITY AND ITS RELATIONSHIP WITH THE PERFORMANCE OF SOME OFFENSIVE SKILLS IN VOLLEYBALL FOR STUDENTS OF FOURTH STAGE /FACULTY OF PHYSICAL EDUCATION
- Measurement Points selection strategy to update models in frequency domain
Last modified: 2014-12-03 18:36:03