GFRP durability appraisal: mechanical testing of naturally aged composite panels

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Abstract

The findings of a durability study undertaken on pultruded glass fibre reinforced polymer (GFRP) cladding panels are presented. Sourced at demolition from the Second Severn Crossing Visitors’ Centre building in the UK, the panels offered the rare opportunity to assess the characteristics of naturally aged composite material. Mechanical properties were determined and compared with the properties of new, equivalent material. The phenomenon of polymer hardening, typified by a reduction in the material strain limit over time, was investigated by further mechanical testing procedures. By contrasting the properties as found for panels taken from each of the four external walls of the building, factors concerning environmental exposure and factors relating to the original fabrication conditions were investigated. The results indicate that, regardless of the exposure conditions, in 17 years the mechanical material properties appear not to have significantly diminished, despite aesthetic quality suffering due to lack of maintenance. It has, however, been shown that ultraviolet exposure causes a hardening of the resin component of the composite, resulting in an increase in the compressive elastic modulus, but a reduction in the threshold of the brittle fracture of the matrix in tension. This final result has not been documented before and is significant in understanding the long-term performance of composites.
Original languageEnglish
Article number1700023
Pages (from-to)267-283
Number of pages17
JournalProceedings of the Institution of Civil Engineers: Construction Materials
Volume171
Issue number6
Early online date22 Nov 2018
DOIs
Publication statusPublished - 6 Dec 2018

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Mechanical testing
Glass fibers
Polymers
Durability
Hardening
Composite materials
Demolition
Brittle fracture
Materials properties
Resins
Elastic moduli
Fabrication
Mechanical properties
fiberglass

Cite this

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title = "GFRP durability appraisal: mechanical testing of naturally aged composite panels",
abstract = "The findings of a durability study undertaken on pultruded glass fibre reinforced polymer (GFRP) cladding panels are presented. Sourced at demolition from the Second Severn Crossing Visitors’ Centre building in the UK, the panels offered the rare opportunity to assess the characteristics of naturally aged composite material. Mechanical properties were determined and compared with the properties of new, equivalent material. The phenomenon of polymer hardening, typified by a reduction in the material strain limit over time, was investigated by further mechanical testing procedures. By contrasting the properties as found for panels taken from each of the four external walls of the building, factors concerning environmental exposure and factors relating to the original fabrication conditions were investigated. The results indicate that, regardless of the exposure conditions, in 17 years the mechanical material properties appear not to have significantly diminished, despite aesthetic quality suffering due to lack of maintenance. It has, however, been shown that ultraviolet exposure causes a hardening of the resin component of the composite, resulting in an increase in the compressive elastic modulus, but a reduction in the threshold of the brittle fracture of the matrix in tension. This final result has not been documented before and is significant in understanding the long-term performance of composites.",
author = "Peter Gates and Timothy Ibell and Antony Darby and Mark Evernden",
year = "2018",
month = "12",
day = "6",
doi = "10.1680/jcoma.17.00023",
language = "English",
volume = "171",
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journal = "Proceedings of the Institution of Civil Engineers: Construction Materials",
issn = "1747-650X",
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number = "6",

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TY - JOUR

T1 - GFRP durability appraisal: mechanical testing of naturally aged composite panels

AU - Gates, Peter

AU - Ibell, Timothy

AU - Darby, Antony

AU - Evernden, Mark

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Y1 - 2018/12/6

N2 - The findings of a durability study undertaken on pultruded glass fibre reinforced polymer (GFRP) cladding panels are presented. Sourced at demolition from the Second Severn Crossing Visitors’ Centre building in the UK, the panels offered the rare opportunity to assess the characteristics of naturally aged composite material. Mechanical properties were determined and compared with the properties of new, equivalent material. The phenomenon of polymer hardening, typified by a reduction in the material strain limit over time, was investigated by further mechanical testing procedures. By contrasting the properties as found for panels taken from each of the four external walls of the building, factors concerning environmental exposure and factors relating to the original fabrication conditions were investigated. The results indicate that, regardless of the exposure conditions, in 17 years the mechanical material properties appear not to have significantly diminished, despite aesthetic quality suffering due to lack of maintenance. It has, however, been shown that ultraviolet exposure causes a hardening of the resin component of the composite, resulting in an increase in the compressive elastic modulus, but a reduction in the threshold of the brittle fracture of the matrix in tension. This final result has not been documented before and is significant in understanding the long-term performance of composites.

AB - The findings of a durability study undertaken on pultruded glass fibre reinforced polymer (GFRP) cladding panels are presented. Sourced at demolition from the Second Severn Crossing Visitors’ Centre building in the UK, the panels offered the rare opportunity to assess the characteristics of naturally aged composite material. Mechanical properties were determined and compared with the properties of new, equivalent material. The phenomenon of polymer hardening, typified by a reduction in the material strain limit over time, was investigated by further mechanical testing procedures. By contrasting the properties as found for panels taken from each of the four external walls of the building, factors concerning environmental exposure and factors relating to the original fabrication conditions were investigated. The results indicate that, regardless of the exposure conditions, in 17 years the mechanical material properties appear not to have significantly diminished, despite aesthetic quality suffering due to lack of maintenance. It has, however, been shown that ultraviolet exposure causes a hardening of the resin component of the composite, resulting in an increase in the compressive elastic modulus, but a reduction in the threshold of the brittle fracture of the matrix in tension. This final result has not been documented before and is significant in understanding the long-term performance of composites.

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