Relevant bibliographies by topics / Glass fibre; Reinforcement; Reinforced / Books
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Books on the topic 'Glass fibre; Reinforcement; Reinforced'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Ballast, David Kent. Glass fiber reinforcement in building materials. Monticello, Ill., USA: Vance Bibliographies, 1988.

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2

Majumbar, A. J. Glass fibre reinforced cement. Oxford: BSP Professional Books, 1991.

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3

Majumdar, A. J. Glass fibre reinforced cement. Oxford: Published on behalf of the Building Research Establishment [by] BSP Professional, 1990.

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4

Spratt, G. The mechanical properties of glass fibre reinforced nylon. s.l.: The Author, 1988.

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5

Taylor, M. Interfacial phenomena in glass fibre reinforced polypropylene composites. Manchester: UMIST, 1994.

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6

Yilmaz, F. B. The injection moulding of long glass-fibre reinforced thermoplastics. Manchester: UMIST, 1994.

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7

Mourad, Mouben. Fibre/matrix interaction in woven E-glass reinforced epoxy composites. Poole: Bournemouth University, 1995.

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8

Engineers, Institution of Structural. Interim guidance on the design of reinforced concrete structures using fibre composite reinforcement. London: Institution of Structural Engineers, 1999.

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9

Kiang-Hwee, Tan, ed. Fibre-reinforced polymer reinforcement for concrete structures: Proceedings of the Sixth International Symposium on FRP Reinforcement for Concrete Structures (FRPRCS-6), Singapore 8-10 July, 2003. Singapore: World Scientific, 2003.

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10

Jaffry, Syed Ali Debaj. Concrete filled glass fibre reinforced polymer (GFRP) shells under concentric compression. Ottawa: National Library of Canada, 2001.

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11

Xiong, June Yu. Visualization of the interphase failure in glass fibre reinforced epoxy composite. Ottawa: National Library of Canada, 1994.

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12

Keller, Thomas. Use of fibre reinforced polymers in bridge construction. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2003. http://dx.doi.org/10.2749/sed007.

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<p>The aim of the present Structural Engineering Document, a state-of-the-art report, is to review the progress made worldwide in the use of fibre rein­forced polymers as structural components in bridges until the end of the year 2000.<p> Due to their advantageous material properties such as high specific strength, a large tolerance for frost and de-icing salts and, furthermore, short installation times with minimum traffic interference, fibre reinforced polymers have matured to become valuable alternative building materials for bridge structures. Today, fibre reinforced polymers are manufactured industrially to semi-finished products and ccimplete structural components, which can be easily and quickly installed or erected on site.<p> Examples of semi-finished products and structural components available are flexible tension elements, profiles stiff in bending and sandwich panels. As tension elements, especially for the purpose of strengthening, strips and sheets are available, as weil as reinforcing bars for concrete reinforcement and prestressing members for internal prestressing or external use. Profiles are available for beams and columns, and sandwich constructions especially for bridge decks. During the manufacture of the structural components fibre-optic sensors for continuous monitoring can be integrated in the materials. Adhesives are being used more and more for joining com­ponents.<p> Fibre reinforced polymers have been used in bridge construction since the mid-1980s, mostly for the strengthening of existing structures, and increas­ingly since the mid-1990s as pilot projects for new structures. In the case of new structures, three basic types of applications can be distinguished: concrete reinforcement, new hybrid structures in combination with traditional construction materials, and all-composite applications, in which the new materials are used exclusively.<p> This Structural Engineering Document also includes application and research recommendations with particular reference to Switzerland.<p> This book is aimed at both students and practising engineers, working in the field of fibre reinforced polymers, bridge design, construction, repair and strengthening.
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13

Kensche, Christoph W. High cycle fatigue of glass fibre reinforced epoxy materials for wind turbines. Köln: Deutsche Forschungsanstalt für Luft- Und Raumfahrt, 1992.

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14

Allen, Richard Frazer. Fracture and fatigue of a continuous fibre reinforced glass ceramic matrix composite. Birmingham: University of Birmingham, 1994.

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15

Memon, Muhammad Saleh. Seismic behaviour of square concrete columns retrofitted with glass fibre reinforced polymers (GFRPs). Ottawa: National Library of Canada, 2002.

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16

Kennedy, J. Reconstruction trials for East Sussex County Council of mix-in-place recycling with cement and glass-fibre-reinforced surface dressing. Slough: Cement and Concrete Association, 1986.

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17

Glass Fibre Reinforced Cement. Blackwell Science Inc, 1991.

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18

GRC (Glass Fibre Reinforced Cement). Routledge, 2003. http://dx.doi.org/10.4324/9780203209998.

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19

Babu, Jalumedi, and J. Paulo Davim, eds. Glass Fibre-Reinforced Polymer Composites. De Gruyter, 2020. http://dx.doi.org/10.1515/9783110610147.

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20

Child, Peter. Vehicle Fabrications in Glass Fibre Reinforced Plastics. Butterworth-Heinemann Ltd, 1987.

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21

*Nfa*, G. True. GRC (Glass Fibre Reinforced Cement): Production and Uses. Routledge, 1998.

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22

Ah-Teck, T. C. T. Formability of long glass fibre reinforced polypropylene sheet. 1986.

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23

Construction Industry Research and Information Association. and I. W. Reid. Glass Fibre Reinforced Plastics Sanitary Sewer Pipes (CIRIA Report). Construction Industry Research & Information Association (CIRIA), 1986.

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24

Brahim, Benmokrane, Bakht Baidar, and ISIS Canada, eds. Specifications for product certification of fibre reinforced polymers (FRPs) as internal reinforcement in concrete structures. Winnipeg, Man: ISIS Canada Research Network, 2006.

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25

béton, Fédération internationale du, ed. Externally bonded FRP reinforcement for RC structures: Technical report on the design and use of externally bonded fibre reinforced polymer reinforcement (FRP EBR) for reinforced concrete structures. Lausanne, Switzerland: International Federation for Structural Concrete, 2001.

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26

Busschen, Albert Ten. Micromechanical Modelling of the Transverse Strenghts of Unidrectional Glass Fibre Reinforced Polyester. Delft Univ Pr, 1996.

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27

Blissett, Martin James. Aspects of the thermal shock behaviour of continuous fibre-reinforced glass-ceramic matrix composites. 1995.

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28

Nanni, Antonio. Fibre Reinforced-Plastic (FRP) Reinforcement for Concrete Structures. Properties and Applications (Developments in Civil Engineering, Volume 42). Elsevier Publishing Company, 1993.

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29

Woo, Monica Soon-wei. Effect of the interface on the moisture absorption behaviour of glass and carbon fibre reinforced epoxy. 1985.

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30

Zhang, Zhong Yi. Visualisation and quantification of the defects in glass-fibre reinforced polymer composite materials using electronic speckle pattern interferometry. 1999.

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31

Saidpour, Seyed Hossein. The effect of fibre/matrix interfacial interactions on the mechanical properties of unidirectional E-glass reinforced vinyl ester composites. 1991.

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