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Author: Kanop Ketchart
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 148
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Book Description
Author: Kanop Ketchart
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 148
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Book Description
Author: Jonathan T. H. Wu
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 152
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Book Description
"This report presents the following three recent projects on load testing of geosynthetic-reinforced soil (GRS) bridge abutments and piers: a full-scale bridge pier load test conducted by the Turner-Fairbank Highway Research Center, Federal Highway Administration, in 1996 (referred to as the Turner-Fairbank pier), a full-scale, long-term load test of a bridge abutment and a bridge pier conducted by the Colorado Department of Transportation and the University of Colorado at Denver in 1996-I 997 (referred to as the Havana Yard piers and abutment); and a production bridge abutment load test conducted by Yenter Companies in Black Hawk, Colorado, in 1997 (referred to as the Black Hawk Abutment). All the bridge supporting structures were instrumented to measure their performance during the load test. The effect of pre-loading. was also investigated in the Turner-Fairbank pier and the Black Hawk abutment. The report describes each of the projects in detail, presents the measured test results and discussion of the results, and offers recommendations on the applications of the GRS bridge abutments and piers"--Tech. report doc. page.
Author: Naser Abu-Hejleh
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 66
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Book Description
In 1996, a full-scale geotextile-reinforced soil (GRS) bridge abutment and two bridge piers with block facing were constructed in the Havana Maintenance Yard in Denver, Colorado. The abutment and outer GRS pier were load tested to demonstrate that GRS abutments and piers with block facing are viable alternatives to conventional bridge piers and abutments. Four to six months after the surcharge load was placed, excessive movements of the top several layers of the outer pier structure and severe cracking of the block facing were noticed. The toppling failure of the upper four block layers of the outer pier was deemed imminent and, consequently, the structures were dismantled. This report summarizes the measured in-situ conditions and characteristics of the structures' materials (backfill, blocks, and geotextile fabric) after almost three years of being in place and identifies potentially relevant causes for the excessive deformation and cracking of the outer pier structure.
Author: Institution of Civil Engineers (Great Britain). National Steering Committee for the Load Testing of Bridges
Publisher: Thomas Telford
ISBN: 9780727727374
Category : Bridges
Languages : en
Pages : 88
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Book Description
Bridge authorities in the UK are currently facing a large programme of bridge assessment and strengthening. This has been caused, in part, by the necessity of ensuring that the European Union deadline for allowing 40-tonne lorries on to UK roads can be met. Many bridges have failed theoretical assessments and some bridge owners, frustrated by the fact that many failed structures are apparently in good condition and showing no signs of distress, have resorted to load testing their bridges to try to provide additional information. A National Steering Committee for the Load Testing of Bridges was set up to examine the role of bridge load testing as a tool for assisting the assessment process. The National Steering Committee consists of representatives from all major bridge owners including the Highways Agency, the County Surveyors Society, the London Bridges Engineering Group, Railtrack and the British Waterways Board. It also includes representatives from consulting engineers and universities and has the support of the Institution of Civil Engineers. The overall objective of the National Steering Committee was to produce authoritative guidance on load-testing techniques; which could be used by the practising engineer to determine capacities of existing bridges/structures that are safe, prudent and minimize levels of restriction to the transport infrastructure. In June 1995 the committee appointed Rendel Palmer & Tritton in association with Peter Lindsell & Associates and supported by Professors Bakht, Clark and Harding as consultants to carry out a preliminary study of all the available information on bridge load testing. They were to recommend a detailed methodology which would form the basis of a brief to consultants appointed to produce authoritative guidelines for the load testing of bridges. Their report concluded that there is a place for load testing in the evaluation of bridges and other structures and that load testing is a valid tool for bridge managers. They also concluded that there was enough information and experience available to permit safe and effective guidelines to be written. As a result of the preliminary study the National Steering Committee decided to divide the second stage work and restrict the scope of this document to guidelines for supplementary load testing. Work on proof and proving load testing is being carried out by others under the auspices of the Highways Agency. The guidelines contained in this document were not drafted in a prescriptive form, but seek to provide advice on the appropriate use of supplementary load testing as an aid to assessment by calculation. The guidelines have been written to enable engineers to determine: when it is appropriate to consider the use of supplementary load testing; the level of risk, both public safety and economic, associated with load testing; how to plan and carry out a load test including the level of expertise necessary, the appropriate loading methods and the type and quantity of instrumentation required. In addition, the document is intended to be a source of information on load testing, measuring equipment and specialist techniques that engineers can use for reference.
Author: Michael T. Adams
Publisher:
ISBN:
Category : Bearing capacity
Languages : en
Pages : 12
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Book Description
The geosynthetic reinforced soil (GRS) performance test (PT), also called a mini-pier experiment, was developed by the Federal Highway Administration (FHWA) to evaluate the material strength properties of GRS composites built with a unique combination of reinforcement, compacted fill, and facing elements. The PT consists of constructing a 1.4-m square column of alternating layers of compacted granular fill and geosynthetic reinforcement with a facing element that is frictionally connected up to a height of 2 m, then axially loading the GRS mass while measuring deformation to monitor performance. The results can be directly used in the design of GRS abutments and integrated bridge systems. Considering that the geometry of the PT is square in plan, the equivalency of the results to a bridge application, which more resembles a plane strain condition, is evaluated and presented in this paper. The analysis indicates that the PT closely approximates the bearing resistance, or capacity, of a typical GRS abutment, and is a conservative estimate when predicting stiffness. These results indicate that the PT can be used as a design tool for GRS abutments at both the strength and service limit states.
Author: Jonathan T. H. Wu
Publisher: Transportation Research Board
ISBN: 0309098459
Category : Bridges
Languages : en
Pages : 152
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Book Description
Introduction and research approach -- Findings -- Interpretation, appraisal, and applications -- Conclusions and suggested research -- Appendixes.
Author:
Publisher:
ISBN:
Category : Highway research
Languages : en
Pages : 128
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Book Description
Author: George Annandale
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 62
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Book Description
This report explains the use of the Erodibility Index Method (also known as Annandale's Method) to calculate bridge pier scour. The method can be used to predict scour in any earth material, including rock and cohesive and noncohesive soils. Earth material properties are represented by a geo-mechanical index that integrates the role of material mass strength, block/particle size, internal shear strength and orientation in quantifying the relative ability of earth material to resist scour. A relationship between the geo-mechanical index and the erosive power of water defines the scour threshold that is used in the scour calculations. By comparing the erosive power that is required to scour an earth material (obtained from the threshold relationship) with the erosive power that is available at the base of a bridge pier, it is possible to calculate scour depth. The report outlines the methods that are used to quantify the geo-mechanical index and those that are used to estimate the erosive power of water flowing around bridge piers, and explains how to calculate scour depth. Application of the method is illustrated with an example.
Author: Beth Moore
Publisher:
ISBN:
Category : Transportation
Languages : en
Pages : 84
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Book Description
Summary of current research studies.
Author:
Publisher:
ISBN:
Category : Air travel
Languages : en
Pages : 1140
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