Portland Cement Concrete Resurfacing

Portland Cement Concrete Resurfacing
Author: Kenneth H. McGhee
Publisher: Transportation Research Board
Total Pages: 80
Release: 1994
Genre: Technology & Engineering
ISBN: 9780309056625

This synthesis report will be of special interest to pavement designers, materials engineers, and others seeking information on portland cement concrete resurfacings (overlays) placed over both portland and asphalt cement concrete pavements. Information is presented on the various practices in use for the design, material selection, and construction techniques associated with each pavement type. Additional information is provided on resurfacing experience and performance, including an Appendix cataloging more than 700 existing resurfacing projects in North America. Transportation agencies in the United States are continuing to develop pavement management systems which take an objective and structured approach to life-cycle cost analysis requirements for pavement rehabilitation project analysis. This report of the Transportation Research Board also discusses the considerations involved in the selection of technically feasible resurfacing alternatives. Based on the longitudinal experience of 375 resurfacing projects that were cataloged in 1982 and the more than 700 projects identified in 1993, much useful information on the performance characteristics of portland cement concrete resurfacing is presented.

Status of Thin-bonded Concrete Overlays

Status of Thin-bonded Concrete Overlays
Author: Robert H. Gausman
Publisher:
Total Pages: 48
Release: 1986
Genre: Pavements
ISBN:

The Demonstration Projects Division of the Federal Highway Administration has been involved in the evaluation of a number of thin-bonded overlays since 1979. This report presents the status of those projects and includes a summary of some of the more important findings to date.

An Introduction to Overlays for Continuously Reinforced Concrete Pavement for Professional Engineers

An Introduction to Overlays for Continuously Reinforced Concrete Pavement for Professional Engineers
Author: J. Paul Guyer
Publisher: Guyer Partners
Total Pages: 47
Release:
Genre: Technology & Engineering
ISBN:

Introductory technical guidance for civil engineers, highway engineers and other professional engineers and construction managers interested in overlays for continuously reinforced portland cement concrete pavements. Here is what is discussed: 1. INTRODUCTION, 2. TYPES OF OVERLAYS INVOLVING CRC PAVEMENT, 3. GENERAL APPROACHES TO OVERLAY DESIGN, 4. CRC OVERLAY TYPES AND PERFORMANCE.

Concrete Structures Part-II, 2nd Edition

Concrete Structures Part-II, 2nd Edition
Author: Zahid Ahmad Siddiqi
Publisher: Zahid Ahmad Siddiqi
Total Pages: 763
Release: 2012-02-22
Genre:
ISBN: 9698633103

This book is prepared according to the 2011 ACI Code for buildings and AASHTO LRFD Specifications for bridges. The units used throughout the presentation are the SI units according to the official system of units in Pakistan. As in Part-I of the same series of books, it is tried that the three main phases of structural design, namely load determination, design calculations and detailing together are introduced to the beginner. Besides reinforced concrete design, basics of formwork design, plain concrete properties and repair / rehabilitation of concrete structures are also presented. This book is useful with the 1st part of the same book. Suggestions for further improvement of the presentation will be highly appreciated and will be incorporated in the future editions.

Polymer Concrete Overlay Test Program

Polymer Concrete Overlay Test Program
Author: Oregon. State Highway Division
Publisher:
Total Pages: 30
Release: 1974
Genre: Polymer-impregnated concrete
ISBN:

This report describes work done on various combinations of monomers and polymer concrete mixes and identifies the mixes showing the greatest potential for use in bridge deck overlays. Presented are test results showing physical properties of various polymer concrete mixes, such as compressive strength, split tensile strength, modulus of elasticity, thermal coefficient of expansion, and shrinkage coefficient. The effects of polymer content, work time, and temperature on various properties are also discussed. The development of two polymer concrete systems with excellent membrane potential are described along with the details of bonding characteristics of several systems. Finally, a polymer concrete mix with suitable properties for deck and pavement patching is detailed.