Development of Induced Magnetic Field Procedure for Nondestructive Evaluation of Deteriorated Prestressing Strand

Titus, Michael D.

22 May 2011

No description available.

Engineering

NDE

nondestructive evaluation

prestressed box beams

magnetic inspection

IMF

MFL

field test

Behaviour of open web precast bridge girders : experimental study

Córdoba G., Roque A.

January 1974

No description available.

Box beams.

Bridges -- Live loads.

Concrete beams -- Testing.

Behaviour of open web precast bridge girders : experimental study

Córdoba G., Roque A.

January 1974

No description available.

Box beams.

Concrete beams -- Testing.

Bridges -- Live loads.

Study of the Effect of Unidirectional Carbon Fiber in Hybrid Glass Fiber / Carbon Fiber Sandwich Box Beams

Joshi, Ninad Milind

January 2013

No description available.

Materials Science

Engineering

Composite Beams

box beams

hybrid composites

Hybrid Beams

square beams

Effectiveness of Waterproofing Membranes for Precast Prestressed Concrete Adjacent Box-Beam Bridges

Almonbhi, Ali O.

23 May 2018

No description available.

Civil Engineering

Evaluation and Structural Behavior of Deteriorated Precast, Prestressed Concrete Box Beams

Ryan T Whelchel (7874897)

22 November 2019

Adjacent precast, prestressed box beam bridges have a history of poor performance and have been observed to exhibit common types of deterioration including longitudinal cracking, concrete spalling, and deterioration of the concrete top flange. The nature of these types of deterioration leads to uncertainty of the extent and effect of deterioration on structural behavior. Due to limitations in previous research and understanding of the strength of deteriorated box beam bridges, conservative assumptions are being made for the assessment and load rating of these bridges. Furthermore, the design of new box beam bridges, which can offer an efficient and economical solution, is often discouraged due to poor past performance. Therefore, the objective of this research is to develop improved recommendations for the inspection, load rating, and design of adjacent box beam bridges. Through a series of bridge inspections, deteriorated box beams were identified and acquired for experimental testing. The extent of corrosion was determined through visual inspection, non-destructive evaluation, and destructive evaluation. Non-destructive tests (NDT) included the use of connectionless electrical pulse response analysis (CEPRA), ground penetrating radar (GPR), and half-cell potentials. The deteriorated capacity was determined through structural testing, and an analysis procedure was developed to estimate deteriorated behavior. A rehabilitation procedure was also developed to restore load transfer of adjacent beams in cases where shear key failures are suspected. Based on the understanding of deterioration developed through study of deteriorated adjacent box beam bridges, improved inspection and load rating procedure are provided along with design recommendations for the next generation of box beam bridges.

Structural Engineering

deteriorated prestressed concrete

adjacent concrete box beams

strand corrosion

bridge inspection

longitudinal cracking

non-destructive testing

ground penetrating radar

half-cell potentials

visual inspection

concrete deterioration

destructive evaluation

structural testing

live-load distribution

adjacent box beam bridge rehabilitation

concrete deck

load rating

structural capacity