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Simplified LRFD Bridge Design 1st Edition by Jai Kim, Robert Kim, Jonathan Eberle ISBN 1040060188 9781040060186

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Simplified LRFD Bridge Design 1st Edition Jai B. Kim Digital Instant Download

Author(s): Jai B. Kim, Robert H. Kim, Jonathan Eberle
ISBN(s): 9781466566514, 1466566515
Edition: 1
File Details: PDF, 22.05 MB
Year: 2013
Language: english
SKU: EB-5676610 Category: Tags: , ,

Simplified LRFD Bridge Design 1st Edition by Jai B. Kim, Robert H. Kim, Jonathan Eberle – Ebook PDF Instant Download/Delivery: 1040060188, 9781040060186

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Product details:

ISBN 10: 1040060188

ISBN 13: 9781040060186

Author:  Jai B. Kim, Robert H. Kim, Jonathan Eberle 

Simplified LRFD Bridge Design 1st Edition: 

Developed to comply with the fifth edition of the AASHTO LFRD Bridge Design Specifications [2010]––Simplified LRFD Bridge Design is “How To” use the Specifications book. Most engineering books utilize traditional deductive practices, beginning with in-depth theories and progressing to the application of theories. The inductive method in the book uses alternative approaches, literally teaching backwards. The book introduces topics by presenting specific design examples. Theories can be understood by students because they appear in the text only after specific design examples are presented, establishing the need to know theories.

The emphasis of the book is on step-by-step design procedures of highway bridges by the LRFD method, and “How to Use” the AASHTO Specifications to solve design problems.

Some of the design examples and practice problems covered include:

  • Load combinations and load factors
  • Strength limit states for superstructure design
  • Design Live Load HL- 93
  • Un-factored and Factored Design Loads
  • Fatigue Limit State and fatigue life; Service Limit State
  • Number of design lanes
  • Multiple presence factor of live load
  • Dynamic load allowance
  • Distribution of Live Loads per Lane
  • Wind Loads, Earthquake Loads
  • Plastic moment capacity of composite steel-concrete beam
  • LRFR Load Rating

Simplified LRFD Bridge Design is a study guide for engineers preparing for the PE examination as well as a classroom text for civil engineering students and a reference for practicing engineers. Eight design examples and three practice problems describe and introduce the use of articles, tables, and figures from the AASHTO LFRD Bridge Design Specifications. Whenever articles, tables, and figures in examples appear throughout the text, AASHTO LRFD specification numbers are also cited, so that users can cross-reference the material.

 

Simplified LRFD Bridge Design 1st Edition Table of contents:

1. LRFD Method of Bridge Design

  • Limit States
  • Load Combinations and Load Factors
  • Strength Limit States for Superstructure Design
  • Resistance Factors, Φ, for Strength Limits
  • Design Live Load HL-93
  • Fatigue Live Load
  • Number of Design Lanes, NL
  • Multiple Presence Factor of Live Load, m
  • Dynamic Load Allowance, IM
  • Live Load Distribution Factors
  • Load Combinations for the Strength I Limit State
  • Simple Beam Live Load Moments and Shears Carrying Moving Concentrated Loads per Lane
  • Live Load Moments and Shears for Beams (Girders)

2. Design Examples

  • Design Example 1: Reinforced Concrete T-Beam Bridge
  • Design Example 2: Load Rating of Reinforced Concrete T-Beam by the Load and Resistance Factor Rating (LRFR) Method
  • Design Example 3: Composite Steel–Concrete Bridge
  • Design Example 4: Longitudinal Steel Girder
  • Design Example 5: Reinforced Concrete Slabs Situation
  • Design Example 6: Prestressed Interior Concrete Girder Situation
  • Design Example 7: Flexural and Transverse Reinforcement for 50 ft Reinforced Concrete Girder
  • Design Example 8: Determination of Load Effects Due to Wind Loads, Braking Force, Temperature Changes, and Earthquake Loads Acting on an Abutment

3. Practice Problems

  • Practice Problem 1: Noncomposite 60 ft Steel Beam Bridge for Limit States Strength I, Fatigue II, and Service Situation
  • Practice Problem 2: 161 ft Steel I-Beam Bridge with Concrete Slab
    • Interior Beam
      • Noncomposite Dead Loads, DC1
      • Composite Dead Loads Due to Curb/Parapet, DC2
      • Total Dead Load Effects Due to DC = DC1 + DC2
      • Dead Loads, DW; Wearing Surfaces
    • Exterior Beams
    • Determine Live Load Shears Due to HL-93 Loads
    • Determine Live Load Moments Due to HL-93 Loads
    • For Moment in Interior Beam, DFM
    • Distribution of Live Load per Lane for Moment in Exterior Beams
    • Distribution of Live Load per Lane for Shear in Interior Beams
    • Distribution of Live Load per Lane for Shear in Exterior Beams
    • Shear
      • Interior Beam
      • Exterior Beam
    • Moment
      • Interior Beam
      • Exterior Beam
    • Shear, Vu
      • Interior Beam
      • Exterior Beam
    • Moment, Mu
      • Interior Beam
      • Exterior Beam
    • Fatigue Load
    • Fatigue Live Load Distribution Factors per Lane for Moment
      • For Interior Beam
      • For Exterior Beam
    • Unfactored Distributed Fatigue Live Load Moment per Beam with Impact
      • Interior Beam
      • Exterior Beam
    • Factored Fatigue II Design Live Load Moment per Beam, MQ
      • Interior Beam
      • Exterior Beam
  • Practice Problem 3: Interior Prestressed Concrete I-Beam Situation

 

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