International Concrete Abstracts Portal

Home > Publications > International Concrete Abstracts Portal

International Concrete Abstracts Portal

The International Concrete Abstracts Portal is an ACI led collaboration with leading technical organizations from within the international concrete industry and offers the most comprehensive collection of published concrete abstracts.

Showing 1-5 of 91 Abstracts search results

Document: 

SP128-73

Date: 

November 1, 1991

Author(s):

C. Goodspeed, M. Zhang, J. Yost, and E. Schmeckpeper

Publication:

Symposium Papers

Volume:

128

Abstract:

The components of force transfer developed by fiber reinforced plastic (FRP) grids are investigated under uniaxial tension and compression loads and under a bending load. Three contributing mechanisms of force transfer in FRP grids are studied: chemical adhesion between the concrete and resin, bonding along the two rough sides of the longitudinal member, and bearing against one side of the transverse members. Development length necessary for force transfer is investigated in three splice details.

DOI:

10.14359/2354

Document: 

SP128-75

Date: 

November 1, 1991

Author(s):

Feng Mingfen

Publication:

Symposium Papers

Volume:

128

Abstract:

This paper presents a new type of lightweight composite materials--calcium silicate board (CSB) produced almost entirely by industrial waste. It possesses light bulk density (below 1100 kg/m3 and rather high strength (flexural strength over 8.0 MPa). Through the standard tests of carbonation, recycling of freezing-thawing, and drying-wetting, the board maintains nearly the same strength, meanwhile having advantages of noncombustibility, sound, and heat insulation. Several engineering application illustrations with satisfactory results and its relevant construction details are introduced. The raw materials as well as the main technological processes are described briefly. As the durability of glass fiber reinforcement in the board is a matter of concern, the relevant analysis based upon the experimental results are also given in this paper.

DOI:

10.14359/2360

Document: 

SP128-48

Date: 

November 1, 1991

Author(s):

R. A. Bates, M. V. Harley, G. G. Payne, and R. A. M. Watkins

Publication:

Symposium Papers

Volume:

128

Abstract:

The Hong Kong Housing Authority maintains an extensive portfolio of property that includes over 700,000 flats. In 1985 it embarked on a major structural investigation of 828 housing blocks, and a US $200 million repair program. The investigation has involved over one million visual inspections, testing of 30,000 concrete cores and an extensive nondestructive testing program. It was necessary to develop methods of appraising low strength concrete structures, and unique strengthening and repair techniques. The paper examines the development and implementation of an investigation and maintenance strategy that takes into consideration the condition, life expectancy, and environment of each building. The paper focuses on the way priorities were determined and research undertaken. It discusses the public relations and management of a program that has required the strengthening of 92 high-rise buildings, and 400,000 mý of spalling repairs over a six year period.

DOI:

10.14359/3458

Document: 

SP128-50

Date: 

November 1, 1991

Author(s):

Ying-Suyuan and Marton Marosszeky

Publication:

Symposium Papers

Volume:

128

Abstract:

Six single-span beams and two two-span beams with preformed cavities simulating concrete spalling were cast and long-term tests were carried out to investigate the performance of structural repair. The early age properties of three types of polymer-modified concrete, i.e., tensile strength, modulus of elasticity, shrinkage and creep, were investigated under the same environmental conditions as the beams. The test results show that the effect of shrinkage of polymer cement concrete on the stress at serviceability of a repaired structure is quite significant. The restrained shrinkage can lead to cracking in the repair patch and to additional tensile stresses in the substrate. Simulation analyses were also carried out to support this experimental investigation. An analytical method has been calibrated by the test results. Tests and analyses show that the major factors influencing the performance of structural repair include free shrinkage, creep coefficient and tensile strength and ultimate tensile strain in early age properties of a repair material. Stiffness of the member and moment redistribution in the repaired structure are also important.

DOI:

10.14359/3460

Document: 

SP128-70

Date: 

November 1, 1991

Author(s):

Gordon A. Lang and Anthony G. Martin

Publication:

Symposium Papers

Volume:

128

Abstract:

A major rehabilitation of the reinforced concrete approach viaduct to the Pattullo Bridge has been successfully completed over the last nine years. A condition inspection revealed that extensive cracking had taken place over the years,especially at the bridge girder ends due mainly to frozen bearings. A program of bearing replacement was carried out at all girder ends along with seismic improvements and general concrete repairs. An elaborate falsework system was designed which was easily adaptable to the varying geometry along the viaduct. Load transfer to the falsework to implement the rehabilitation was achieved using a hydraulic jacking system. The work was carried out in a series of six contracts and the project was completed without any bridge traffic closures during the assignment.

DOI:

10.14359/3465

12345...>>

Results Per Page 




Edit Module Settings to define Page Content Reviewer