Steel designers' handbook /

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Fully revised and updated, this eighth edition is an invaluable tool for all practicing structural, civil, and mechanical engineers as well as engineering students. Responding to changes in design and processing standards-including fabrication, welding, and coatings-this resource introduces the main...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Gorenc, B. (Branko)
Otros Autores: Tinyou, R. (Ronald), Syam, A. (Arun)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Sydney, N.S.W. : NewSouth Publishing, 2012.
Edición:8th ed.
Temas:
Civil engineering > Handbooks, manuals, etc.
Steel, Structural > Handbooks, manuals, etc.
Structural design > Handbooks, manuals, etc.
Acier de construction > Guides, manuels, etc.
Constructions > Calcul > Guides, manuels, etc.
TECHNOLOGY & ENGINEERING > General.
Civil engineering
Steel, Structural
Structural design
Handbooks and manuals
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover ; About the Authors ; Copyright ; Contents; Preface; CHAPTER 1: Introduction; 1.1 Developments in steel structures; 1.1 Developments in steel structures; 1.2 Engineering design process; 1.3 Standards and codes of practice; 1.4 General structural design principles; 1.5 Limit states design method; 1.6 Combination of actions; 1.7 Strength limit state; 1.8 Serviceability limit state; 1.9 Other limit states; 1.10 Other features of AS 4100; 1.11 Criteria for economical design and detailing; 1.12 Design aids; 1.13 Glossary of limit states design terms
  • 1.14 Recent code changes for this 8th edition 1.15 Further reading; CHAPTER 2: Material & Design Requirements; 2.1 Steel products; 2.2 Physical properties of steel; 2.3 Steel types and grades; 2.4 Scope of material and design codes; 2.5 Material properties and characteristics in AS 4100; 2.6 Strength limit state capacity reduction factor; 2.7 Brittle fracture; 2.8 Further reading; CHAPTER 3: Design Actions; 3.1 General; 3.2 Permanent actions; 3.3 Imposed actions; 3.4 Wind actions; 3.5 Earthquake actions; 3.6 Other actions; 3.7 Notional horizontal forces; 3.8 Temperature actions; 3.9 Silo loads
  • 3.10 Crane and hoist loads 3.11 Design action combinations; 3.12 Further reading; CHAPTER 4: Structural Analysis; 4.1 Calculation of design action effects; 4.2 Forms of structure vs analysis method; 4.3 Calculation of second-order effects; 4.4 Moment amplification method in detail; 4.5 Elastic flexural buckling load of a member; 4.6 Calculation of factor for unequal end moments; 4.7 Examples; 4.8 Summary; 4.9 Further reading; CHAPTER 5: Beams & Girders; 5.1 Types of members subject to bending; 5.2 Flexural member behaviour; 5.3 Bending moment capacity; 5.4 Beam segments and restraints
  • 5.5 Detailed design procedure 5.6 Monosymmetrical I-section beams; 5.7 Biaxial bending and bending with axial force; 5.8 Web shear capacity and web stiffeners; 5.9 Composite steel and concrete systems; 5.10 Design for serviceability; 5.11 Design for economy; 5.12 Examples; 5.13 Further reading; CHAPTER 6: Compression & Beam-Column Members; 6.1 Types of compression members; 6.2 Members loaded only axially; 6.3 Design of beam-columns; 6.4 Struts in triangulated structures; 6.5 Battened and laced struts; 6.6 Composite steel and concrete columns
  • 6.7 Restraining systems for columns and beam-columns 6.8 Economy in the design; 6.10 Further reading; 6.9 Examples; CHAPTER 7: Tension Members; 7.1 Types of tension members; 7.2 Types of construction; 7.3 Evaluation of load effects; 7.4 Verification of member capacity; 7.5 End connection fasteners and detailing; 7.6 Steel rods; 7.7 Steel wire ropes; 7.8 Examples; 7.9 Further reading; CHAPTER 8: Connections; 8.1 Connection and detail design; 8.2 Bolted connections; 8.3 Design and verification of bolted connections; 8.4 Connected plate elements; 8.5 Welded connections; 8.6 Types of welded joints

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