SP-304: Sustainable Performance of Conc Bridges and Elements Subjected to Aggressive Enviro: Monitoring, Evalu & Rehab

SP-304: Sustainable Performance of Conc Bridges and Elements Subjected to Aggressive Enviro: Monitoring, Evalu & Rehab

Your Price: $76.50 USD

Member Price: $46.00 USD

Save $30.50 USD, Become a Member

Choose Product Format

Notes/Preview

Note: The individual papers are also available as .pdf downloads. Please click on the following link to view the papers available, or call 248.848.3800 to order.

PURCHASE INDIVIDUAL PAPERS

Editors: Yail J. Kim, Baolin Wan, Isamu Yoshitake

Description

Since the major milestones of sustainability, such as the Hannover Principle in 1991 and the Kyoto Protocol in 1997, the concept of sustainability has been broadly adopted by various disciplines. New construction consumes considerable amounts of energy and materials, and CO2 emission in 2020 is expected to increase by 100%, compared with that of today. Technical communities are responsible for improving the sustainability of the built-environment by using more durable and highly efficient materials to reduce the need for replacement, maintenance, or repair. When subjected to aggressive environments, the performance of constructed concrete bridges and their elements is of interest from socioeconomic perspectives. Advances in a variety of aspects are required to achieve such a goal, including the durability of concrete members, performance monitoring technologies, evaluation methodologies, damage assessment, and structural rehabilitation. This Special Publication (SP) includes 10 papers selected from the three special sessions held at the ACI Fall convention in Washington, DC, October 2014. Each submitted manuscript has been rigorously reviewed and evaluated by at least two experts. The editors wish to thank all contributing authors and anonymous reviewers for their endeavors.

Document Details

Publication Year: 2015

Pages: 170

ISBN: 9781942727477

Categories: Environmental, Sustainability

Formats: CD/DVD or PDF

Table of Contents

SP-304—1

Response Surface Metamodel-based Performance Reliability Reinforced for Concrete Beams Strengthened with FRP sheets

Authors: Junwon Seo, Yail J. Kim, and Shadi Zandyavari

SP-304—2

Reducing Deck Cracking in Composite Bridges by Controlling Long Term Properties

Authors: Fatmir Menkulasi, Doug Nelson, Carin L. Roberts Wollmann, and Thomas E. Cousins

SP-304—3

Monitoring of the 205-ft long Pretensioned Precast Super Girders of the Alaskan Way Viaduct, Seattle, WA

Authors: Sameh S. Badie, David Chapman, Anthony Mizumori, Yu Jiang, Stephen J. Seguirant, and Bijan Khaleghi

SP-304—4

Using GFRP Reinforcing as a cost effective solution to extending the service life of bridge decks: A case study of the Kansas Department of Transportation I-635 Bridges over State Ave in Kansas City, KS

Authors: Ryan Koch and Jon Karst

SP-304—5

Analytical Modeling of Reinforced Concrete Beams Strengthened with Mechanically Fastened Fiber-reinforced Polymers (MF-FRP)

Authors: Gordon Salisbury and Vicki Brown

SP-304—6

Use of Self-consolidating Concrete and High Volume Fly Ash Concrete in Missouri Bridge A7957

Authors: Eli S. Hernandez and John J. Myers

SP-304—7

Managing ASR and DEF in Concrete Bridge Columns

Author: Mark E. Williams

SP-304—8

Assessment of Early Corrosion in Prestressed Concrete Based on Open-Circuit Potential and Polarization Resistance

Authors: William Vélez and Fabio Matta

SP-304—9

The Role of Shrinkage Strains Causing Early-Age Cracking in Cast-in-Place Concrete Bridge Decks

Authors: Tayyebeh Mohammadi, Baolin Wan and Christopher M. Foley

SP-304—10

Finite Element Modeling of RC Beams Strengthened with Prestressed NSM CFRP Strips Subjected to Severe Environmental Conditions

Authors: Hamid Y. Omran and Raafat El-Hacha

ERRATA INFO

Any applicable errata are included with individual documents at the time of purchase. Errata are not included for collections or sets of documents such as the Manual of Concrete Practice (MCP). For a listing of and access to all product errata, visit the Errata page.

Return/Exchange Policy

Printed / Hard Copy Products: The full and complete returned product will be accepted if returned within 60 days of receipt and in salable condition. A 20% service charge applies. Return shipping fees are the customer’s responsibility.

Electronic /Downloaded Products & Online Learning Courses: These items are not eligible for return.

Exchanges: Contact ACI’s Customer Services Department for options (+1.248.848.3800 – ACICustomerService@concrete.org).