Basic Theory of StructuresBasic Theory of Structures. |
Contents
PREFACE | 11 |
Shearing Force and Bending Moment | 41 |
Bending Stresses in Beams | 70 |
Copyright | |
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16 tonf/in² axial load b.m. diagram bending moment bending stress buckling load Calculate the maximum cantilever carries centre concentrated load cross-sectional area dead load determine the maximum diameter direct stress displacement distance elastic equal equation equilibrium Example flange force diagram forces acting free body diagram ft 5 ft ft FIG ft long girder Hence horizontal in¹ in² influence line intensity of loading internal forces joint lbf ft lbf/ft² lbf/in² length line of s.f. load factor maximum b.m. maximum stress mid-span modulus Mohr diagram moment of area neutral axis pinned plane position pre-stressing ratio reinforced concrete roller shear stress shearing force shown in Fig simple beam simply supported slab span strain energy stress distribution structure strut taking moments tensile tensile stress tonf compression tonf ft tonf tension uniform loading uniformly distributed load unit load vector vertical deflection weight Williot diagram yield stress ΕΙ