Results 271 to 280 of about 71,846 (313)

Compressive Behavior of Glass‐Fiber Reinforced Polymer Concrete

Journal of Materials in Civil Engineering, 1992
The effect of polymer content and glassfiber content on the compressive behavior of polyester polymer concrete is investigated at room temperature.
S. Mebarkia, C. Vipulanandan
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Glass Fiber Reinforced Polymers

2018
Glass fiber reinforced polymer (GFRP), commonly called fiberglass, is used for a huge variety of applications including boat hulls, car bodies, roofing shingles, pipes, flooring and various containers and storage tanks. GFRP is referred to as a composite material since it is a combination of two different materials, that is, glass fibers in the form of
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One-Way Slabs Reinforced with Glass Fiber Reinforced Polymer Reinforcing Bars

SP-188: 4th Intl Symposium - Fiber Reinforced Polymer Reinforcement for Reinforced Concrete Structures, 1999
Twelve reinforced concrete deck panels were tested to study the potential of glass fiber reinforced polymer (GFRP) rebars as a replacement for epoxy coated steel (ECS) rebars in concrete bridge decks. Span lengths during testing were 2130 mm and 2740 mm.
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Tensile behavior of glass fiber‐reinforced acetal polymer

Journal of Applied Polymer Science, 1969
AbstractThe tensile stress‐strain behavior of glass fiber‐reinforced polyacetal resin was investigated for various fiber concentrations, fiber length distributions, and finishing agents. The polyacetal fiber blends change considerably in strength and elongation at break when treated with ammonium chloride, but otherwise similar specimens still follow a
G. F. Hardy, H. L. Wagner
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Fracture toughness of glass fiber‐reinforced acetal polymer

Journal of Applied Polymer Science, 1971
AbstractThe critical stress field intensity factor for crack propagation,KIc, was determined for a large number of glass fiber‐reinforced acetal copolymer compositions and for the unfilled resin. The results were interpreted in terms of a model previously proposed for the tensile behavior of these materials. TheKIccould be regarded as a linear function
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Glass Fiber-Reinforced Polymer Dowels for Concrete Pavements

ACI Structural Journal, 2001
Corrosion of steel dowels in concrete pavements reduces their useful service life and creates considerable maintenance and repair expenditures. Glass fiber-reinforced polymer (GFRP) dowel bars are a possible maintenance-free alternative that will potentially reduce the overall life cycle cost of pavements, especially in corrosive environments.
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Stochastic Modeling of a Glass Fiber Reinforced Polymer

2011
Stochastic modeling of a material microstructure is in general composed of multiple steps. First, geometric properties of the sample are measured by image analysis. Second, an appropriate stochastic model is chosen and model parameters are estimated from the geometric properties.
Hellen Altendorf, Dominique Jeulin
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Flexural behavior of concrete beams hybrid-reinforced with glass fiber-reinforced polymer, carbon fiber-reinforced polymer, and steel rebars

Advances in Structural Engineering
The utilization of fiber-reinforced polymer (FRP) reinforcements in structural design is increasing due to their non-corrosive nature. However, the anisotropic features and linear elastic behavior of FRP rebars have led researchers to explore the use of hybrid combinations of FRP and steel reinforcements.
Hilal Terzioglu, Meltem Eryilmaz Yildirim, Omer Karagoz, Esref Unluoglu, Mizan Dogan   +4 more
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Splice of Glass Fiber-Reinforced Polymer-Reinforced Concrete Mixed with Superabsorbent Polymer

ACI Structural Journal, 2021
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Tailoring inorganic–polymer composites for the mass production of solid-state batteries

Nature Reviews Materials, 2021
Li-Zhen Fan, Hongcai He, Ce-Wen Nan
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