John Newhook scite author profile

John Newhook

5Publications

55Citation Statements Received

25Citation Statements Given

How they've been cited

112

How they cite others

Affiliations

Dalhousie University, University of Calgary, Technical University of Nova Scotia

Publications

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Concrete flexural members reinforced with fiber reinforced polymer: design for cracking and deformability

Newhook¹,

Ghali²,

Tadros³

2002

Can. J. Civ. Eng.

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Fiber reinforced polymer (FRP) bars have lower modulus of elasticity than steel bars. For this reason when FRP bars are used as flexural nonprestressed reinforcement in concrete sections, the stress in the FRP is limited to a relatively small fraction of its tensile strength. This limit, necessary to control width of cracks at service, governs design of the required cross-sectional area of the FRP. Parametric studies on rectangular and T-sections are presented to show that the design based on allowable strain in the FRP results in sections that exhibit large deformation before failure. The concept of deformability, given in the Canadian Highway Bridge Design Code, as a requirement in the design of sections is discussed and modifications suggested. Using the new definition, it is shown that when, in addition to the crack control requirement, an upper limit is imposed on the cross-sectional area of the FRP, no calculations will be necessary to check the deformability.Résumé : Les barres en polymères renforcés de fibres (FRP : « fiber reinforced polymer ») ont un module d'élasticité plus bas que celui de barres d'acier. Pour cette raison, lorsque des barres en FRP sont employées en tant que renforcement non précontraint en flexion dans des sections en béton, il est nécessaire de limiter la contrainte dans le FRP à une fraction relativement petite de sa résistance en tension. Le respect de cette limite, nécessaire au contrôle de la largeur des fissures durant le service, détermine quelle est l'aire de la section transversale du renforcement en FRP qui est requise. Des études paramétriques sur des sections rectangulaires et en T sont présentées afin de montrer que la conception basée sur le respect de la tension limite permise dans les FRP résulte en des sections qui présentent de larges déformations avant la rupture. Le concept de l'état de déformation, donné dans le Code canadien sur le calcul des ponts routiers en tant qu'exigence dans la conception de sections, est discuté et des modifications sont suggérées. En utilisant la nouvelle définition, il est montré que, si une limite supérieure est imposée sur l'aire de la section transversale de FRP en plus de l'exigence du contrôle des fissures, alors il n'est pas nécessaire de procéder à des calculs afin de vérifier l'état de déformation.

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Accelerated wet/dry corrosion test for buried corrugated mild steel

Ezzeldin

Naggar

Newhook

et al. 2022

Case Studies in Construction Materials

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Cracking and Deformability of Concrete Flexural Sections with Fiber Reinforced Polymer

Newhook

Ghali

Tadros³

2002

J. Struct. Eng.

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Strain and deformation monitoring in infrastructure using embedded smart FRP reinforcements

Kalamkarov

Saha

Rokkam

et al. 2005

Composites Part B: Engineering

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Performance of GFRP-Reinforced Concrete Beams Subjected to High-Sustained Load and Natural Aging for 10 Years

et al. 2020

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John Newhook

Concrete flexural members reinforced with fiber reinforced polymer: design for cracking and deformability

Accelerated wet/dry corrosion test for buried corrugated mild steel

Cracking and Deformability of Concrete Flexural Sections with Fiber Reinforced Polymer

Strain and deformation monitoring in infrastructure using embedded smart FRP reinforcements

Performance of GFRP-Reinforced Concrete Beams Subjected to High-Sustained Load and Natural Aging for 10 Years

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