SP-340: Dennis Mertz Symposium on Design and Evaluation of Concrete Bridges

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Sponsored By:Sponsored by ACI 342, Evaluation of Cocrete Bridges and Bridge Elements; ACI 343, Concrete Bridge Design—Joint ACI-ASCE; and ACI 348, Structural Reliability and Safety

Editors: Andrzej S. Nowak and Hani Nassif

Associate Editor: Victor Aguilar

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Description

Professor Dennis Mertz passed away after a prolonged battle with cancer. He spent a large portion of his professional career working on advancing of the state-of-the-art of bridge engineering. He was a great friend and colleague to many at ACI and ASCE. Joint ACI-ASCE Committee 343, joined with ACI Committees 342 and 348, sponsored four sessions to honor his contributions and achievements in concrete bridge design and evaluation. These sessions highlighted the important work and collaborative efforts that Dr. Mertz had with others at ACI and ASCE on various topics. These sessions also combined the efforts among ACI and ASCE researchers and practitioners in addressing various topics related to the design and evaluation of concrete bridges. The scope and outcome of the sessions are relevant to ACI’s mission. They raise awareness on established design methodologies applied for various limit states covering topics related flexure, shear, fatigue, torsion, etc. They address problems related to emerging design and evaluation approaches and recent development in design practices, code standards, and related applications. The Symposium Publication (SP) is expected to be an important reference in relation to design philosophies and evaluation methods of new and existing concrete bridges and structures.

Keywords:

n/a

 

Document Details

Pages: 254

ISBN: 9781641951012

Categories: Design, Fatigue, Shear, Torsion

Formats: PDF

Table of Contents

SP-340-1:

Updating AASHTO Concrete Design Provisions - Prof. Mertz’s Final Major Contribution to AASHTO LRFD

Authors: John M. Kulicki and Gregg A. Freeby

1-18

SP-340-2:

Load and Resistance Factors for Concrete Bridges and Buildings

Authors: Olga Iatsko and Andrzej S. Nowak

19-31

SP-340-3:

Calibration of Service I Limit State for Reinforced Concrete Bridge Deck Designed using AASHTO Empirical Method

Authors: Dan Su and Hani Nassif

32-53

SP-340-4:

Establishing Baseline Performance of a Segmental-Concrete Cable-Stayed Bridge

Authors: Michael J. Chajes, Harry W. Shenton III, Hadi T. Al-Khateeb, and Christos Aloupis

54-72

SP-340-5:

Performance of Latex-Modified Concrete (LMC) Overlays on Bridge Decks Under Laboratory and Field Conditions

Authors: Nakin Suksawang and Hani Nassif

73-96

SP-340-6:

Autogenous Shrinkage in Self-Consolidating Concrete

Authors: Maria Kaszynska and Adam Zielinski

97-113

SP-340-7:

Modeling Material Response of Fiber Composites used for the Retrofit of Existing Concrete Structures under Blast Loadings

Authors: Sary A. Malak and Neven Krstulovic-Opara

114-136

SP-340-8:

Development of a New Short-Span Bridge System — A Comprehensive Approach

Authors: Tevfik Terzioglu, Dongqi Jiang, Mary Beth Hueste, and John B. Mander

137-158

SP-340-9:

Design Developments for Extradosed Prestressed Bridge

Author: Steven L. Stroh

159-178

SP-340-10:

Analysis of a Fire-Damaged and FRP Laminate-Strengthened Reinforced Concrete Bridge

Authors: Santosh Timilsina, Nur Yazdani, Eyosias Beneberu, and Abel Mulenga

179-196

SP-340-11:

Spatial Variation of Concrete Strength in Safety Evaluation of Existing Structures

Author: Ming Liu

197-209

SP-340-12:

How to Increase Ductile Behavior of Reinforced Concrete Structures

Authors: Piotr Moncarz, Tea Visnjic, and Peter H. Feenstra

210-220

SP-340-13:

Reliability-Based Evaluation of a 100-Year-Old Multi-Span Flat Slab Bridge

Authors: Patryk J. Wolert, Andrzej S. Nowak, and J. Michael Stallings

221-232

SP-340-14:

Design of FRP-Prestressed Concrete Bridge Girders

Authors: Raymon W. Nickle and Yail J. Kim

233-246

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