Porth Ymchwil

Comparison of accelerated weathering and field exposed resin modified timber

Allbwn ymchwil: Cyfraniad at gynhadleddPapur

StandardStandard

Comparison of accelerated weathering and field exposed resin modified timber. / Stefanowski, Bronia; Bailey, Roger; Spear, Morwenna et al.
2019. 119-130 Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig.

Allbwn ymchwil: Cyfraniad at gynhadleddPapur

HarvardHarvard

Stefanowski, B, Bailey, R, Spear, M, Ormondroyd, G & Pitman, A 2019, 'Comparison of accelerated weathering and field exposed resin modified timber', Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig, 3/07/19 - 4/07/19 tt. 119-130.

APA

Stefanowski, B., Bailey, R., Spear, M., Ormondroyd, G., & Pitman, A. (2019). Comparison of accelerated weathering and field exposed resin modified timber. 119-130. Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig.

CBE

Stefanowski B, Bailey R, Spear M, Ormondroyd G, Pitman A. 2019. Comparison of accelerated weathering and field exposed resin modified timber. Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig.

MLA

Stefanowski, Bronia et al. Comparison of accelerated weathering and field exposed resin modified timber. Timber 2019, 03 Gorff 2019, London, Y Deyrnas Unedig, Papur, 2019. 12 t.

VancouverVancouver

Stefanowski B, Bailey R, Spear M, Ormondroyd G, Pitman A. Comparison of accelerated weathering and field exposed resin modified timber. 2019. Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig.

Author

Stefanowski, Bronia ; Bailey, Roger ; Spear, Morwenna et al. / Comparison of accelerated weathering and field exposed resin modified timber. Papur a gyflwynwyd yn Timber 2019, London, Y Deyrnas Unedig.12 t.

RIS

TY - CONF

T1 - Comparison of accelerated weathering and field exposed resin modified timber

AU - Stefanowski, Bronia

AU - Bailey, Roger

AU - Spear, Morwenna

AU - Ormondroyd, Graham

AU - Pitman, Andrew

PY - 2019/7/3

Y1 - 2019/7/3

N2 - Wood exposed to UV, moisture and temperature results in the degradation of the surface cell structure, consequently changing the surface properties and colour. Absorption of UV light by lignin is responsible for the vast majority of wood degradation and deterioration. Although the discolouration can be removed through planing, it is not always possible and is aesthetically displeasing. There have been many studies conducted to enhance woods properties and prevent lignin degradation. This paper investigates the use of phenol formaldehyde based resin to modify Pinus radiata to improve dimensional stability and resistance to weathering. Untreated and modified boards were exposed to natural weathering (field exposed) and artificial weathering using Arc Xenon system. It was concluded that PF modified wood is less susceptible to weathering than untreated radiata pine in accelerated and field exposed weathering.

AB - Wood exposed to UV, moisture and temperature results in the degradation of the surface cell structure, consequently changing the surface properties and colour. Absorption of UV light by lignin is responsible for the vast majority of wood degradation and deterioration. Although the discolouration can be removed through planing, it is not always possible and is aesthetically displeasing. There have been many studies conducted to enhance woods properties and prevent lignin degradation. This paper investigates the use of phenol formaldehyde based resin to modify Pinus radiata to improve dimensional stability and resistance to weathering. Untreated and modified boards were exposed to natural weathering (field exposed) and artificial weathering using Arc Xenon system. It was concluded that PF modified wood is less susceptible to weathering than untreated radiata pine in accelerated and field exposed weathering.

M3 - Paper

SP - 119

EP - 130

T2 - Timber 2019

Y2 - 3 July 2019 through 4 July 2019

ER -