Description

Book Synopsis

A succinct, real-world approach to complete bridge system design and evaluation

Load and Resistance Factor Design (LRFD) and Load and Resistance Factor Rating (LRFR) are design and evaluation methods that have replaced or offered alternatives to other traditional methods as the new standards for designing and load-rating U.S. highway bridges. Bridge Design and Evaluation covers complete bridge systems (substructure and superstructure) in one succinct, manageable package. It presents real-world bridge examples demonstrating both their design and evaluation using LRFD and LRFR. Designed for a 3- to 4-credit undergraduate or graduate-level course, it presents the fundamentals of the topic without expanding needlessly into advanced or specialized topics.

Important features include:

  • Exclusive focus on LRFD and LRFR
  • Hundreds of photographs and figures of real bridges to connect the theoretical with the practical
  • Design and evaluat

    Table of Contents

    Preface xi

    1 Introduction 1

    1.1 Bridge Engineering and Highway Bridge Network 1

    1.2 Types of Highway Bridges 2

    1.3 Bridge Construction and Its Relation to Design 7

    1.4 AASHTO Specifications and Design and Evaluation Methods 9

    1.5 Goals for Bridge Design and Evaluation 11

    1.6 Preliminary Design versus Detailed Design 11

    1.7 Organization of This Book 12

    References 14

    2 Requirements for Bridge Design and Evaluation 15

    2.1 General Requirements 15

    2.2 Limit States 16

    2.3 Constructability 20

    2.4 Safety 21

    2.5 Serviceability 31

    2.6 Inspectability 41

    2.7 Economy 41

    2.8 Aesthetics 42

    2.9 Summary 44

    References 45

    Problems 45

    3 Loads, Load Effects, and Load Combinations 47

    3.1 Introduction 47

    3.2 Permanent Loads 48

    3.3 Transient Loads 63

    3.4 Load Combinations 83

    References 92

    Problems 92

    4 Superstructure Design 101

    4.1 Introduction 101

    4.2 Highway Bridge Superstructure Systems 103

    4.3 Primary Components of Highway Bridge Superstructure 106

    4.4 Deck Systems 110

    4.5 Deck-Supporting Systems 121

    4.6 Design of Reinforced Concrete Deck Slabs 135

    4.7 Design of Steel I Beams 177

    4.8 Design of Prestressed Concrete I Beams 247

    References 300

    Problems 300

    5 Bearing Design 303

    5.1 Introduction 303

    5.2 Types of Bridge Bearing 304

    5.3 Appropriate Selection of Bearings 313

    5.4 Design of Elastomeric Bearings 314

    References 333

    Problems 333

    6 Substructure Design 335

    6.1 Introduction 335

    6.2 Piers 340

    6.3 Abutments 346

    6.4 Foundations 349

    6.5 Design of Piers 353

    6.6 Design of Abutments 357

    References 393

    Problems 393

    7 Highway Bridge Evaluation 395

    7.1 Introduction 395

    7.2 Inspection and Condition Rating 397

    7.3 Load Rating 401

    7.4 Fatigue Evaluation for Steel Components 416

    References 419

    Problems 419

    Index 421

Bridge Design and Evaluation

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    RRP £118.95 – you save £5.95 (5%)

    Order before 4pm today for delivery by Mon 29 Jun 2026.

    A Hardback by Gongkang Fu

    10 in stock


      View other formats and editions of Bridge Design and Evaluation by Gongkang Fu

      Publisher: John Wiley & Sons Inc
      Publication Date: 05/02/2013
      ISBN13: 9780470422250, 978-0470422250
      ISBN10: 0470422254
      Also in:
      Civil engineering, surveying and building

      Description

      Book Synopsis

      A succinct, real-world approach to complete bridge system design and evaluation

      Load and Resistance Factor Design (LRFD) and Load and Resistance Factor Rating (LRFR) are design and evaluation methods that have replaced or offered alternatives to other traditional methods as the new standards for designing and load-rating U.S. highway bridges. Bridge Design and Evaluation covers complete bridge systems (substructure and superstructure) in one succinct, manageable package. It presents real-world bridge examples demonstrating both their design and evaluation using LRFD and LRFR. Designed for a 3- to 4-credit undergraduate or graduate-level course, it presents the fundamentals of the topic without expanding needlessly into advanced or specialized topics.

      Important features include:

      • Exclusive focus on LRFD and LRFR
      • Hundreds of photographs and figures of real bridges to connect the theoretical with the practical
      • Design and evaluat

        Table of Contents

        Preface xi

        1 Introduction 1

        1.1 Bridge Engineering and Highway Bridge Network 1

        1.2 Types of Highway Bridges 2

        1.3 Bridge Construction and Its Relation to Design 7

        1.4 AASHTO Specifications and Design and Evaluation Methods 9

        1.5 Goals for Bridge Design and Evaluation 11

        1.6 Preliminary Design versus Detailed Design 11

        1.7 Organization of This Book 12

        References 14

        2 Requirements for Bridge Design and Evaluation 15

        2.1 General Requirements 15

        2.2 Limit States 16

        2.3 Constructability 20

        2.4 Safety 21

        2.5 Serviceability 31

        2.6 Inspectability 41

        2.7 Economy 41

        2.8 Aesthetics 42

        2.9 Summary 44

        References 45

        Problems 45

        3 Loads, Load Effects, and Load Combinations 47

        3.1 Introduction 47

        3.2 Permanent Loads 48

        3.3 Transient Loads 63

        3.4 Load Combinations 83

        References 92

        Problems 92

        4 Superstructure Design 101

        4.1 Introduction 101

        4.2 Highway Bridge Superstructure Systems 103

        4.3 Primary Components of Highway Bridge Superstructure 106

        4.4 Deck Systems 110

        4.5 Deck-Supporting Systems 121

        4.6 Design of Reinforced Concrete Deck Slabs 135

        4.7 Design of Steel I Beams 177

        4.8 Design of Prestressed Concrete I Beams 247

        References 300

        Problems 300

        5 Bearing Design 303

        5.1 Introduction 303

        5.2 Types of Bridge Bearing 304

        5.3 Appropriate Selection of Bearings 313

        5.4 Design of Elastomeric Bearings 314

        References 333

        Problems 333

        6 Substructure Design 335

        6.1 Introduction 335

        6.2 Piers 340

        6.3 Abutments 346

        6.4 Foundations 349

        6.5 Design of Piers 353

        6.6 Design of Abutments 357

        References 393

        Problems 393

        7 Highway Bridge Evaluation 395

        7.1 Introduction 395

        7.2 Inspection and Condition Rating 397

        7.3 Load Rating 401

        7.4 Fatigue Evaluation for Steel Components 416

        References 419

        Problems 419

        Index 421

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