Structure for Architects : A Case Study in Steel, Wood, and Reinforced Concrete Design

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Structure for Architects : A Case Study in Steel, Wood, and Reinforced Concrete Design

  • 著者名:Bedi, Ashwani/Dabby, Ramsey
  • 価格 ¥4,411 (本体¥4,085)
  • Routledge(2019/07/11発売)
  • ポイント 40pt (実際に付与されるポイントはお支払い画面でご確認下さい)
  • 言語:ENG
  • ISBN:9781138554382
  • eISBN:9781351348294

ファイル: /

Description

Structure for Architects: A Case Study in Steel, Wood, and Reinforced Concrete Design is a sequel to the authors’ first text, Structure for Architects: A Primer, emphasizing the conceptual understanding of structural design in simple language and terms. This book focuses on structural principles applied to the design of typical structural members—a beam, a girder, and a column—in a diagrammatic frame building. Through the application of a single Case Study across three key materials, the book illustrates the theory, principles, and process of structural design. The Case Study progresses step-by-step for each material, from determining tributary areas and loads through a member's selection and design.

The book addresses the frequent disparity between the way architects and engineers perceive and process information, with engineers focusing on technical aspects and architects focusing on visual concepts. Structure for Architects: A Case Study in Steel, Wood, and Reinforced Concrete Design presents readers with an understanding of fundamental engineering principles through a uniquely thematic Case Study. Focusing on the conceptual understanding of structural design, this book will be of interest to architecture students and professionals looking to understand the application of structural principles in relation to steel, wood, and concrete design.  

Table of Contents

Contents

  1. INTRODUCTION TO STRUCTURAL DESIGN
    1. Removing a Bearing Wall

  2. STRUCTURAL DESIGN METHODOLOGIES
    1. Building Codes and Industry Organizations
    2. Loads
    3. Safety Factors
    4. Load Combinations
    5. Design Methodologies

  3. STRESS, STRAIN, AND MATERIAL BEHAVIOR
    1. Stress, Strain, and Material Properties
    2. Stress-Strain Curves for Steel, Wood, and Concrete
    3. Elastic/Plastic Material Behavior – An Analogy
    4. Elastic/Plastic Analogy Applied to a Beam
    5. Section Modulus
    6. Getting Started - Case Study

  4. CASE STUDY INTRODUCTION
    1. Load Combinations
    2. Designing for Beams and Girders
    3. Designing for Columns

  5. UNDERSTANDING STEEL
    1. Manufacture and Materials
    2. General Design Considerations
    3. Design Considerations for Beams
    4. Design Considerations for Columns

  6. DESIGN IN STEEL – CASE STUDY
    1. Assumptions

    Case Study – Design in Steel (ASD)

    6.2.ASD Beam 3

    6.3.ASD Girder B

    6.4.ASD Column B2

    Case Study – Design in Steel (LRFD)

    6.2.LRFD Beam 3

    6.3.LRFD Girder B

    6.4.LRFD Column B2

    ASD / LRFD Discussion

  7. UNDERSTANDING WOOD
    1. Sawn Lumber – Manufacture and Properties
    2. Sawn Lumber – Design Considerations for Beams
    3. Sawn Lumber – Design Considerations for Columns
    4. Engineered Lumber – Manufacture and Products
    5. Engineered Lumber – Design Considerations

  8. DESIGN IN SAWN WOOD – CASE STUDY
    1. Assumptions
    2. Case Study – Design in Sawn Wood

    3. Beam 3
    4. Girder B
    5. Column B2

  9. DESIGN IN ENGINEERED WOOD – CASE STUDY
    1. Assumptions
    2. Case Study – Design in Engineered Wood

    3. A Typical Joist
    4. Girder B
    5. Column B2

  10. UNDERSTANDING REINFORCED CONCRETE
    1. Materials and Manufacture
    2. Structural Considerations
    3. Design Considerations for Beams
    4. Design Considerations for Columns

  11. DESIGN IN REINFORCED CONCRETE – CASE STUDY
    1. Assumptions
    2. Case Study – Design in Reinforced Concrete

    3. Beam 3
    4. Girder B
    5. Column B2

  12. IN CLOSING

 

Appendix 1. AISC STEEL CONSTRUCTION MANUAL

Appendix 2. NATIONAL DESIGN SPECIFICATION (NDS) FOR WOOD CONSTRUCTION

Appendix 3. ACI 318: BUILDING CODE REQUIREMENTS FOR STRUCTURAL CONCRETE

Appendix 4. BEAM DIAGRAMS AND FORMULAE