Reducing Brittle and Fatigue Failures in Steel Structures
📄 Viewing lite version
Full site ›
Book Details
Author(s)Peter Maranian
PublisherAmerican Society of Civil Engineers
ISBN / ASIN0784410674
ISBN-139780784410677
AvailabilityUsually ships in 24 hours
Sales Rank3,048,572
CategoryTechnology & Engineering
MarketplaceUnited States 🇺🇸
Description ▲
Structural steel has been vital to engineering and construction over the past century. Its versatility has allowed it to perform outstandingly in countless applications. However, there have been repeated failures associated with fracture and/or fatigue mechanisms; the 1994 Northridge earthquake, the 1995 Kobe earthquake, and most recently the I-35W Mississippi River Bridge collapse in Minneapolis on August 1, 2007. These failures have highlighted concerns for the life of bridge structures particularly with regard to fatigue and corrosion. Although problems with fatigue and brittle have been well documented, these factors and issues have not yielded state-of-the-art design practices. The goal of Reducing Brittle and Fatigue Failures in Steel Structures is to provide a one-volume reference of failures in steel structures, along with considerations to preventing them. This book will give engineers a better understanding of steel and its limitations and applications, in order to reduce brittle and fatigue failures. This book will be a valuable resource for structural engineers, as well as professionals involved in bridge construction, design, and maintenance.
More Books in Technology & Engineering
Fourth Dimension in Building: Strategies for Avoiding …
View
Design and Evaluation of Rigid and Flexible Pavements,…
View
Nuclear Nonproliferation: Status Of U.s. Efforts To Im…
View
Time-Domain Numerical Methods for Modelling Antennas, …
View
The Rise of the Standard Model: A History of Particle …
View
Synthesis, Properties and Crystal Chemistry of Perovsk…
View
Error Propagation in Environmental Modelling with GIS …
View
Crops And Environmental Change: An Introduction To Eff…
View
Multicarrier Modulation with Low PAR: Applications to …
View