Infrastructure Health in Civil Engineering, (2 Volume Set)

Title: Infrastructure Health in Civil Engineering, (2 Volume Set)
Author: Mohammed M. Ettouney, Sreenivas Alampalli
ISBN: 1439866554 / 9781439866559
Format: Hard Cover
Pages: 1320
Publisher: CRC Press
Year: 2011
Availability: Out of Stock

Tab Article

Continually increasing demands on infrastructure mean that maintenance and renewal require timely, appropriate action that maximizes benefits while minimizing cost. To be as well informed as possible, decision-makers must have an optimal understanding of an infrastructure’s condition—what it is now, and what it is expected to be in the future. Written by two respected engineers, Infrastructure Health in Civil Engineering is presented in two corresponding volumes that integrate the decision making concept into theoretical and practical issues.

The first volume, Theory and Components, includes:

  • An overview of the infrastructure health in civil engineering (IHCE) and associated theories
  • In-depth description of the four components of IHCE: measurements, structural identification, damage identification, and decision making
  • Discussion of how IHCE and asset management are applied
  • Exploration of analogies between structural and human health

The second volume, Applications and Management, covers:

  • State-of-the-art practices and future directions
  • Use of probability and statistics in areas including structural modeling
  • Specific practical applications, including retrofitting and rehabilitation in response to earthquake damage, corrosion, fatigue, and bridge security
  • Use of IHCE for management and maintenance of different types of structures using pre-stressed and reinforced concrete, and fiber-reinforced polymers (FRPs)
  • Numerous practical case studies, as well as coverage of the latest techniques in the use of sensors for damage detection and load testing

This set comprises, perhaps for the first time, an invaluable integrated guide to the wide range of structural hazards—including scour, earthquakes, fatigue, corrosion, and damage to pre-stressed systems. It then lays out the optimized, cost-saving methods that will help readers meet safety specifications for new projects, as well as the aging infrastructure at great risk of failure.

Tab Article

Volume 1 : Theory and Components

Part I : Overview and Theories of IHCE
Chapter 1 :
Introduction
Chapter 2 : Elements of Structural Health in Civil Engineering (SHCE)
Chapter 3 : Lives and Deaths of Infrastructures
Chapter 4 : Theories and Principles of IHCE

Part II : Components of IHCE
Chapter 5 :
Sensors and Infrastructures Health
Chapter 6 : Structural Identification (STRID)
Chapter 7 : Damage Identification (DMID)
Chapter 8 : Decision Making in IHCE

Appendices
Index

Volume 2 : Applications and Management

Part III : Applications
Chapter 9 :
Scour
Chapter 10 : Earthquakes
Chapter 11 : Corrosion of Reinforced Concrete Structures
Chapter 12 : Pre-stressed Concrete Bridges
Chapter 13 : Fatigue
Chapter 14 : Fiber-Reinforced Polymers Bridge Decks
Chapter 15 : Fiber-Reinforced Polymers Wrapping

Part IV : Management of Infrastructure Health
Chapter 16 :
Load Testing
Chapter 17 : Bridge Management and Infrastructure Health
Chapter 18 : Life-Cycle Analysis and Infrastructure Health
Chapter 19 : Role of Structural Health Monitoring in Enhancing Bridge Security

Appendices
Index