Steel-Designers-Manual-6Ed.pdf

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Steel Designers' Manual - 6th Edition (2003)

Contents

Introduction to the sixth edition

Contributors

Notation

xxv

SECTION 1: DESIGN SYNTHESIS

1 Single-storey buildings

Range of building types; Anatomy of structure; Loading; Design of

common structural forms

2 Multi-storey buildings

Introduction; Factors inﬂuencing choice of form; Anatomy of structure;

Worked example

3 Industrial steelwork

Range of structures and scale of construction; Anatomy of structure;

Loading; Structure in its wider context

4 Bridges

124

Introduction; Selection of span; Selection of type; Codes of practice;

Trafﬁc loading; Other actions; Steel grades; Overall stability and

articulation; Initial design; Worked example

5 Other structural applications of steel

169

Towers and masts; Space frames; Cable structures; Steel in residential

construction; Atria

SECTION 2: STEEL TECHNOLOGY

6 Applied metallurgy of steel

222

Introduction; Chemical composition; Heat treatment; Manufacture

and effect on properties; Engineering properties and mechanical tests;

Fabrication effects and service performance; Summary

7 Fracture and fatigue

248

Fracture; Linear elastic fracture mechanics; Elastic–plastic fracture

mechanics; Materials testing for fracture properties; Fracture-safe

design; Fatigue

8 Sustainability and steel construction

275

Introduction; Economic impacts; Social impacts; Environmental impacts;

Embodied energy; Operational energy; Summary

iii

Steel Designers' Manual - 6th Edition (2003)

Contents

SECTION 3: DESIGN THEORY

9 Introduction to manual and computer analysis

286

Introduction; Element analysis; Line elements; Plates; Analysis of

skeletal structures; Finite element method

10 Beam analysis

325

Simply-supported beams; Propped cantilevers; Fixed, built-in or

encastré beams; Continuous beams; Plastic failure of single members;

Plastic failure of propped cantilevers

11 Plane frame analysis

342

Formulae for rigid frames; Portal frame analysis

12 Applicable dynamics

354

Introduction; Fundamentals of dynamic behaviour; Distributed

parameter systems; Damping; Finite element analysis; Dynamic testing

SECTION 4: ELEMENT DESIGN

13 Local buckling and cross-section classiﬁcation

373

Introduction; Cross-sectional dimensions and moment–rotation

behaviour; Effect of moment–rotation behaviour on approach to design

and analysis; Classiﬁcation table; Economic factors

14 Tension members

383

Introduction; Types of tension member; Design for axial tension;

Combined bending and tension; Eccentricity of end connections; Other

considerations; Cables; Worked examples

15 Columns and struts

402

Introduction; Common types of member; Design considerations;

Cross-sectional considerations; Compressive resistance; Torsional and

ﬂexural-torsional buckling; Effective lengths; Special types of strut;

Economic points; Worked examples

16 Beams

431

Common types of beam; Cross-section classiﬁcation and moment

capacity, M c ; Basic design; Lateral bracing; Bracing action in bridges –

U-frame design; Design for restricted depth; Cold-formed sections as

beams; Beams with web openings; Worked examples

17 Plate girders

470

Introduction; Advantages and disadvantages; Initial choice of cross-

section for plate girders in buildings; Design of plate girders used in

buildings to BS 5950: Part 1: 2000; Initial choice of cross-section for

plate girders used in bridges; Design of steel bridges to BS 5400: Part 3;

Worked examples

Steel Designers' Manual - 6th Edition (2003)

Contents

18 Members with compression and moments

511

Occurrence of combined loading; Types of response – interaction;

Effect of moment gradient loading; Selection of type of cross-section;

Basic design procedure; Cross-section classiﬁcation under compression

and bending; Special design methods for members in portal frames;

Worked examples

19 Trusses

541

Common types of trusses; Guidance on overall concept; Effects of

load reversal: Selection of elements and connections; Guidance on

methods of analysis; Detailed design considerations for elements;

Factors dictating the economy of trusses; Other applications of trusses;

Rigid-jointed Vierendeel girders; Worked examples

20 Composite deck slabs

577

Introduction; Deck types; Normal and lightweight concretes; Selection

of ﬂoor system; Basic design; Fire resistance; Diaphragm action; Other

constructional features; Worked example

21 Composite beams

601

Application of composite beams; Economy; Guidance on span-to-

depth ratios; Types of shear connection; Span conditions; Analysis of

composite section; Basic design; Worked examples

22 Composite columns

651

Introduction; Design of encased composite columns; Design of concrete-

ﬁlled tubes; Worked example

SECTION 5: CONNECTION DESIGN

23 Bolts

671

Types of bolt; Methods of tightening and their application; Geometric

considerations; Methods of analysis of bolt groups; Design strengths;

Tables of strengths

24 Welds and design for welding

685

Advantages of welding; Ensuring weld quality and properties by the

use of standards; Recommendations for cost reduction; Welding

processes; Geometric considerations; Methods of analysis of weld groups;

Design strengths

25 Plate and stiffener elements in connections

711

Dispersion of load through plates and ﬂanges; Stiffeners; Prying forces;

Plates loaded in-plane

26 Design of connections

721

Introduction; Simple connections; Moment connections; Summary;

Worked examples

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