Structural Steel Design: ASD MethodHarperCollins, 1992 - 726 pages This introductory text on structural steel design continues Jack McCormac's tradition of writing textbooks that are accessible to students. Complicated theoretical derivations are presented in an easy-to-understand manner without overburdening students with technical explanations. The latest edition of this popular text conforms to AISC's 1989 Standards on Allowable Stress Design. Numerous topics have been expanded in the fourth edition including block shear, flexural-torsional buckling, and eccentrically loaded connections. Due to the expanded interest in the LRFD method, four chapters have been added to the text as an introduction to the subject. |
Contents
Appendix | 1 |
Load and Resistance Factor Design | 44 |
Design of Tension Members | 77 |
Copyright | |
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Common terms and phrases
A36 steel AASHTO AISC allowable stress Allowable Stress Design angles ASD Equation ASD Manual ASD Specification assumed axial load axis beam weight bending stress block shear bolted joints bridges buckling building built-up calculations column compression flange compression members computed concentrated load concrete connectors cover plates deflection design strength determine the allowable effective length elastic equal Example factor factor of safety Figure fillet welds floor forces formula frame ft-k full lateral support high-strength bolts holes in.² in.³ joints k/ft KxLx lateral bracing lb/ft live loads LRFD maximum method minimum plastic plastic analysis plate girder purlins Repeat Prob resistance result roof Select the lightest shapes shear center shear plane shear strength shear stress shown in Fig sidesway slab slenderness ratio Solution steel beams stiffeners structural steel Table tension members thickness tion torsional truss unbraced length values yield stress