Ramon V. Jarquio ... 240 pages - Publisher: CRC Press; (July 17, 2007)
Language: English - ASIN: B00918NEAU
A new analytical method that uses the capacity axis of a section to
determine its minimum capacity for biaxial bending as well as provide
the reference for equilibrium of external and internal forces has been
developed. Introducing this method, Structural Analysis: The Analytical
Method illustrates the procedures for predicting the capacities of
circular and rectangular sections in concrete and steel materials.
By
applying basic mathematics to the standard principles in structural
analysis, the author derived for the first time all the equations
required for solving the true capacity of circular and rectangular
sections in structural design. Previous authors have been unable to
employ basic mathematics and thus resorted to approximate methods, such
as the standard interaction formula for biaxial bending or more
sophisticated methods illustrated in current literature on the subject
of determining the capacity of above structural sections.
The
book begins with a discussion of the capacities of rectangular and
circular footing foundation for a given allowable soil-bearing pressure
followed by the author’s latest integration of the Boussinesq’s elastic
equation for the dispersion of surface loads in determining the exact
average pressure to use in the standard soil settlement formula. The
author provides all the equations and tabulated values of key point’s
capacities of commercially-produced steel pipe, rectangular tubing, and
steel I-sections. He then lists the derived equations for the
determination of the ultimate strength capacity curve of reinforced
concrete columns and concrete-filled tubular columns without using the
rectangular stress block method of analysis.
Elucidating an
elegant, straightforward, and precise method, thus limiting guesswork,
this book makes it easier to confirm the adequacy and safety of designs
by direct comparison of the external loads to the internal capacities of
circular and rectangular sections in structural analysis and design.