ZHAO Yuxing, LIU Hongfu, LÜ Jiapeng. DEFLECTIONS OF STRUCTURES WITH COMPLICATED DISTRIBUTION OF CURVATURE CALCULATED BY FINITE INTEGRAL METHOD[J]. MECHANICS IN ENGINEERING, 2012, 34(2): 19-23. DOI: 10.6052/1000-0879-20120203
Citation: ZHAO Yuxing, LIU Hongfu, LÜ Jiapeng. DEFLECTIONS OF STRUCTURES WITH COMPLICATED DISTRIBUTION OF CURVATURE CALCULATED BY FINITE INTEGRAL METHOD[J]. MECHANICS IN ENGINEERING, 2012, 34(2): 19-23. DOI: 10.6052/1000-0879-20120203

DEFLECTIONS OF STRUCTURES WITH COMPLICATED DISTRIBUTION OF CURVATURE CALCULATED BY FINITE INTEGRAL METHOD

  • The finite integral method is a numerical solution by which Brown and Trahair analyzed some differential equations. The kernel mechanism of the finite integral method is how to calculate z = z(x) numerically when some values of z′ = z′(x) are known. Function z′ = z′(x) is the derivative of z = z(x). Essentially, the deflection calculation by curvatures φ is a mathematical process to calculate z from z″. Based on the relations between z-z″ and z′-z″ in the finite integral solutions, the deflection-curvature matrix is derived by matrix operations, and the curvature-deflection equation is derived by the relation φ = - z″. The curvature-deflection equations for some kinds of common boundary conditions are discussed. The finite integral solution for deflections of structures with complicated distribution of curvature is obtained.
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