Schaum's Outline of Structural Steel Design

Name: Schaum's Outline of Structural Steel Design
Price: 3.32 USD
Availability: InStock
ISBN: 9780070535633

ISBN-10: 0070535639

ISBN-13: 9780070535633

Edition: 1991

Authors: Abraham J. Rokach

List price: $29.00

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Description:

A Schaum's solved-problem book in structural steel design using the new Load and Resistance Factor Design (LRFD) method. This new method will eventually become the standard, so engineers and architects as well as students will welcome a Schaum's Outline on LRFD for structural steel buildings. This book is the only one available in this format.

Book details

List price: $29.00
Copyright year: 1991
Publisher: McGraw-Hill Education
Publication date: 1/22/1991
Binding: Paperback
Pages: 216
Size: 7.90" wide x 10.80" long x 0.40" tall
Weight: 0.880
Language: English



Introduction



Structural Steel


Notation


Definitions


Mechanical Properties


Availability


Structural Shapes


Design Methods


ASD versus LRFD



Introduction to Lrfd


Notation


Basic Concepts


Probability Theory


Loads


Load Combinations



Tension Members


Notation


Introduction


Cross-Sectional Areas


Design Tensile Strength


Displacement



Columns and Other Compression Members


Notation


Introduction


Local Buckling


Column Buckling


Effective Length Factor: Judgmental Method


Effective Length Factor: Analytical Method


Design Compressive Strength


Column Design


Displacement



Compact Beams and Other Flexural Members


Notation


Introduction


Compactness


Flexural Behavior


Elastic versus Plastic Analysis


Design Flexural Strength: C[subscript b] = 1.0, L[subscript b less than or equal] L[subscript r]


Bending Coefficient C[subscript b]


Design Flexural Strength: C[subscript b greater than or equal] 1.0, L[subscript b less than or equal] L[subscript r]


Design Flexural Strength: L[subscript b greater than sign] L[subscript r]


Gross and Net Cross Sections


Design Shear Strength


Displacement and Vibration



Noncompact Beams and Plate Girders


Notation


Introduction


Noncompact Beams


Design Flexural Strength of Plate Girders


Design Shear Strength of Plate Girders


Web Stiffeners


Stiffener Details


Rolled versus Built-Up Beams



Members in Flexure and Tension


Notation


Introduction


Interaction Formulas



Beam-Columns: Combined Flexure and Compression


Notation


Introduction


Interaction Formulas


Simplified Second-Order Analysis


Preliminary Design



Torsion


Notation


Introduction


Shear Center


Avoiding or Minimizing Torsion


Design Criteria


St. Venant Torsion


Warping Torsion


Deformation



Composite Members


Notation


Introduction


Columns and Other Compression Members


Beams and Other Flexural Members


Design Flexural Strength


Shear Connectors


Special Provisions for Steel Decks


Concrete-Encased Beams


Beam-Columns: Combined Flexure and Compression


Design Shear Strength



Connections


Notation


Introduction


Welds


Bolts


Connecting Elements and Main Members at Connections


Typical Connections


Bearing on Steel and Concrete



Other Design Considerations


Notation


Introduction


Concentrated Loads and Reactions


Stiffener Requirements


Index