Produktbild: Structural Design for the Stage

Structural Design for the Stage

288,99 €

inkl. gesetzl. MwSt., Versandkostenfrei


Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

17.03.2015

Verlag

KNV Besorgung

Seitenzahl

616

Maße (L/B/H)

24,1/19,6/3,7 cm

Gewicht

1468 g

Auflage

2. Auflage

Sprache

Englisch

ISBN

978-0-240-81826-9

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

17.03.2015

Verlag

KNV Besorgung

Seitenzahl

616

Maße (L/B/H)

24,1/19,6/3,7 cm

Gewicht

1468 g

Auflage

2. Auflage

Sprache

Englisch

ISBN

978-0-240-81826-9

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Structural Design for the Stage
  • Chapter 1: Overview

    Purpose

    Contents

    Scope

    Chapter 2: Force, Stress, and Strain

    Introduction

    Force

    Free Body Diagrams

    Moment

    Equilibrium

    Stress

    Strain and Elasticity

    Chapter 2 Lessons

    Chapter 3: Stress Analysis for Beams

    Introduction

    Analyzing the Load

    Reaction

    Shear Diagrams

    Horizontal Shear

    Moment Diagrams

    Overhangs and Cantilevers

    Case Formulas

    Chapter 3 Lessons

    Chapter 4: Geometric Properties

    Introduction

    Elastic Neutral Axis, Centroid, and "c"

    Moment of Inertia

    Transferring Moments of Inertia

    Radius of Gyration

    Elastic Section Modulus

    The Flexure Formula

    Plastic Analysis

    Chapter 4 Lessons

    Chapter 5: Sawn Lumber - Introduction and Beam Design

    Introduction

    Sawn Lumber Beam Design Basics

    Bending Test

    Shear Test

    Deflection Test

    Steps in Beam Design

    Beam Design Examples

    Notching Sawn Lumber Beams

    Built-Up Beams

    Designing Backwards

    Chapter 5 Lessons

    Chapter 6: Sawn Lumber - Column Design

    Introduction to Column Design

    Euler's Equation

    Adjusted Compressive Design Value

    Steps in Column Design

    Odd-Shaped Columns

    Chapter 6 Lessons

    Chapter 7: Sawn Lumber - Combined Loading Design

    Introduction

    Single Axis Bending And Axial Tension

    Single Axis Bending and Axial Compression

    Eccentric Loading

    Biaxial Bending

    Chapter 7 Lessons

    Chapter 8: Steel - Introduction and Beam Design

    Introduction to Steel and its Properties

    Steel Shapes

    Steel Structural Design Basics

    Steel Beam Design

    Steel Beam Design by Shape

    Hollow Rectangular Shapes

    Hollow Round Shapes

    Angle

    I-beams and Channel Bent about their Major Axis

    I-beams and Channel Bent about their Minor Axis

    Available Moment vs Unbraced Length Tables

    Chapter 8 Lessons

    Chapter 9: Steel - Column and Tension Member Design

    Introduction to Column Design

    Doubly Symmetric Column Design

    Single Angle Column Design

    Tension Member Design

    Chapter 9 Lessons

    Chapter 10: Steel - Combined Loading Design

    Introduction

    Single Axis Bending and Axial Tension

    Single Axis Bending and Axial Compression

    Eccentric Loading

    Biaxial Bending

    Biaxial Bending and Axial Compression

    Chapter 10 Lessons

    Chapter 11: Aluminum - Introduction and Tension Design

    Introduction to Aluminum Design Basics

    Aluminum Alloys and Tempers

    Aluminum Shapes

    Aluminum Design Basics

    Design of Aluminum Axial Tension Members

    Chapter 11 Lessons

    Chapter 12: Aluminum - Beam Design

    Introduction

    Aluminum Beam Design by Shape

    Hollow Rectangular Shapes

    Hollow Round Shapes

    I-beams

    Allowable Uniform Beam Loads Table

    Chapter 12 Lessons

    Chapter 13: Aluminum - Column Design

    Introduction

    Aluminum Column Design by Shape

    Hollow Round Shapes

    Hollow Rectangular Shapes

    I-beams

    Chapter 13 Lessons

    Chapter 14: Plywood Design

    Introduction

    Design Values

    Grading and Selection

    Designing for Uniform Loads

    Examples

    Stressed-Skin Panels

    Chapter 14 Lessons

    Chapter 15: Truss Design

    Introduction

    Three-Member Trusses

    Traditional Trusses

    Method of Joints

    Truss Construction

    Chapter 15 Lessons

    Chapter 16: Cable Design

    Introduction

    Point Load Cable Systems

    Curved Cable Systems

    Chapter 16 Lessons

    Appendices

    A Geometric Properties of Common Shapes

    B Case Formulas

    C Sawn Lumber Reference Values

    D Steel Reference Values

    E Aluminum Reference Values

    F Plywood Reference Values

    G Useful information

    H Math Review

    I Answers to Even Numbered Problems

    References

    Index