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Your search keyword '"Barr, Paul"' showing total 12 results
Start Over Author "Barr, Paul" Journal journal of performance of constructed facilities
12 results on '"Barr, Paul"'

1. Structural damage detection using dynamic properties determined from laboratory and field testing

Author

Hsieh, Kai H., Hailing, Marvin W., Barr, Paul J., and Robinson, Marc J.

Subjects
Finite element method -- Usage, Reliability (Engineering) -- Evaluation, Structural analysis (Engineering) -- Methods, Bridges -- Design and construction, Bridges -- Mechanical properties, Engineering and manufacturing industries, Science and technology
Abstract

Studies have shown that experimentally determined dynamic properties can be used to identify the characteristics of a structure. In this paper, a damage detection technique is developed and demonstrated using system identification, finite-element modeling, and a modal update process. The proposed approach, SFM, provides a rapid estimate of damage locations and magnitudes. The proposed methodology is applied to three case studies. The first is a numerical simulation using computer generated data. The second is an ASCE benchmark problem for structural health monitoring, where the results can be compared to other researchers. The third is a full-scale highway bridge that was field tested using a forced vibration shaking machine. In this case study, the bridge was shaken in several states of damage and the proposed methodology was utilized to detect and determine the location and extent of the damage. It was found that, using the collected data, the SFM approach was able to consistently predict the location of damage as well as estimate the magnitude of the damage. DOI: 10.1061/(ASCE)0887-3828(2008)22:4(238) CE Database subject headings: Monitoring; Structural reliability; Damage; Modal analysis; Field tests; Laboratory tests.

Published
2008

2. Dynamic and static behavior of a curved-girder bridge with varying boundary conditions

Author

Mertlich, Tyler B., Halling, Marvin W., and Barr, Paul J.

Subjects
Bridges -- Design and construction, Strains and stresses -- Analysis, Stress relaxation (Materials) -- Analysis, Stress relieving (Materials) -- Analysis, Materials -- Dynamic testing, Materials -- Methods, Engineering and manufacturing industries, Science and technology
Abstract

A curved, three-span continuous, steel I-girder bridge in Salt Lake City was tested in order to determine its dynamic and static load carrying properties for three boundary condition states. For each of the three boundary condition states, two dynamic forced vibration methods were applied to the bridge as well as a static live-load test. The first forced vibration method used an eccentric mass shaker. The second method involved striking the side of the bridge with an impact hammer. The live-load test was performed by slowly driving a truck at a crawl speed across the bridge. Velocity transducers, accelerometers, and strain gauges were utilized to record the response of the bridge. The analysis and compilation of recorded dynamic response of the bridge enabled the preparation of mode shapes and natural frequencies for each boundary condition. This paper discusses the resulting changes in relevant dynamic properties and compares them with the changes in the static properties that were determined from the bridge response recorded from the live-load tests. DOI: 10.1061/(ASCE)0887-3828(2007)21:3(185) CE Database subject headings: Model analysis; Beams; Bridges, steel; Dynamic tests; Field tests; Curvature.

Published
2007

3. Nondestructive evaluation of the I-40 bridge over the Rio Grande River

Author

Jauregui, David V. and Barr, Paul J.

Subjects
Bridges -- Design and construction, Bridges -- Testing, Engineering and manufacturing industries, Science and technology
Abstract

A nondestructive strength evaluation of the I-40 Bridge over the Rio Grande River in Albuquerque, N.M. was completed for the New Mexico Department of Transportation (NMDOT). The I-40 Bridge is a precast, prestressed concrete girder bridge located within 3 mi. of the 'Big I' interchange carrying Interstates I-40 and I-25. Because of its location, the I-40 Bridge is subjected to large amounts of heavy truck traffic. The primary objective of the study reported herein was to determine a more accurate capacity rating for the I-40 Bridge and thus, reduce the number of overweight vehicle permit denials. To achieve this objective, a conventional rating analysis is first performed based on American Association of State Highway and Transportation Officials (AASHTO) guidelines. A diagnostic load test and a finite-element analysis are then completed. Details of the AASHTO rating analysis as well as the approach by which measured girder strains from the load test and finite-element results were considered in the capacity rating of the I-40 Bridge are discussed. Findings from the study confirmed that the capacity ratings of the I-40 Bridge could be safely increased by a factor of 1.7. CE Database subject headings: Bridge tests; Finite element method; Load distribution; Nondestructive tests; Permits; Strain measurement: New Mexico.

Published
2004

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