FRP strengthened RC beams : taper design and theoretical analysis /

Gao, Bo.

January 2005

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2005. / Includes bibliographical references (leaves 148-162). Also available in electronic version.

Behavior of FRP-Reinforced glulam-concrete composite bridge girders /

Weaver, Craig Aaron,

January 2002

Thesis (M.S.) in Civil and Environmental Engineering--University of Maine, 2002. / Includes vita. Includes bibliographical references (leaves 102-105).

Nondestructive evaluation of fiber reinforced polymer bridge decks using ground penetrating radar and infrared thermography

Hing, Cheng Lok.

January 2006

Thesis (Ph. D.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains xvii, 167 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 154-159).

Development of FRP-Glulam Panel for Bridge Deck Replacement

Xu, Han

January 2001

No description available.

Fiber reinforced plastics

Laminated wood

Behavior of FRP-Reinforced Glulam-Concrete Composite Bridge Girders

Weaver, Craig Aaron

January 2002

No description available.

Bridges, Concrete

Composite materials

Fiber reinforced plastics

Reinforced concrete construction

Fracture Mechanics Characterization of WPC-FRP Composite Materials Fabricated by the Composites Pressure Resin Infusion System (Compris) Process Volume I (Chapters 1-7, Appendix A)

Souza, Benjamin J.

January 2005

No description available.

Composite materials

Fiber reinforced plastics.

Plastic-impregnated wood

Development of an FRP Reinforced Hardwood Glulam Guardrail

Botting, Joshua Keith

January 2003

No description available.

Composite construction

Fiber reinforced plastics

Laminated wood

Roads -- Guard fences

Experimental Variability of E-Glass Reinforced Vinyl Ester Composites Fabricated by VARTM/Scrimp

El-Chiti, Fadi

January 2005

No description available.

Composite construction

Fiber optics

Fiber reinforced plastics

Nanostructured materials

GFRP Bars in Concrete toward Corrosion-free RC Structures: Bond Behavior, Characterization, and Long-term Durability Prediction

Yan, Fei

January 2016

Corrosion of steel reinforcements is the leading causes of malfunction or even failures of reinforced concrete (RC) structures nationwide and worldwide for many decades. This arises up to substantial economic burden on repairs and rehabilitations to maintain and extend their service life of those RC public projects. The inherent natures of glass fiber-reinforced polymers (GFRP) bars, from their superior corrosion resistance to high strength-to-weight ratio, have promoted their acceptance as a viable alternative for steel reinforcement in civil infrastructures. Comprehensive understanding of the bond between GFRP bars and concrete, in particular under in-service conditions or extremely severe events, enables scientists and engineers to provide their proper design, assessment and long-term predictions, and ultimately to implement them toward the corrosion-free concrete products. This research aims to develop a holistic framework through an experimental, analytical and numerical study to gain deep understanding of the bond mechanism, behavior, and its long-term durability under harsh environments. The bond behavior and failure modes of GFRP bar to concrete are investigated through the accelerated aging tests with various environmental conditions, including alkaline and/or saline solutions, freezing-thawing cycles. The damage evolution of the bond is formulated from Damage Mechanics, while detailed procedures using the Arrhenius law and time shift factor approach are developed to predict the long-term bond degradation over time. Besides, the machine learning techniques of the artificial neural network integrated with the genetic algorithm are used for bond strength prediction and anchorage reliability assessment. Clearly, test data allow further calibration and verification of the analytical models and the finite element simulation. Bond damage evolution using the secant modulus of the bond-slip curves could effectively evaluate the interface degradation against slip and further identify critical factors that affect the bond design and assessment under the limit states. Long-term prediction reveals that the moisture content and elevated temperature could impact the material degradation of GFRP bars, thereby affecting their service life. In addition, the new attempt of the Data-to-Information concept using the machine learning techniques could yield valuable insight into the bond strength prediction and anchorage reliability analysis for their applications in RC structures. / ND NASA EPCoR (FAR0023941) / ND NSF EPSCoR (FAR0022364) / US DOT (FAR0025913)

Carbon fiber-reinforced plastics.

Reinforced concrete construction.

Reinforced concrete -- Corrosion.

Identification of Delamination Defects in CFRP Materials through Lamb Wave Responses

Bruhschwein, Taylor John

January 2014

Delamination is currently a largely undetectable form of damage in composite laminate materials. This thesis will develop a method to more easily detect delamination damage within composite materials. Using finite element analysis modeling and lab testing, a new method from interpreting the results obtained from existing structural health monitoring techniques is developed. Lamb waves were introduced and recorded through an actuator and sensors made of piezoelectric material. The data was then analyzed through a novel data reduction method using the Fast Fourier Transform (FFT). Using the data from FFT, the idea of covariance of energy change was developed. By comparing the covariance of energy change in beams with differing delamination size, thickness and depth, correlations were able to be developed. With these correlations, the severity and of damage was able to be detected.

Carbon fiber-reinforced plastics.

Composite materials -- Delamination.

Lamb waves.