FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION

Allbwn ymchwil: Cyfraniad at gynhadleddCrynodebadolygiad gan gymheiriaid

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FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. / Raghavalu Thirumalai, Durai; Spear, Morwenna; Curling, Simon et al.
2018. Ffurflen grynodeb 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada.

Allbwn ymchwil: Cyfraniad at gynhadleddCrynodebadolygiad gan gymheiriaid

HarvardHarvard

Raghavalu Thirumalai, D, Spear, M, Curling, S, Zhongwei, G & Ormondroyd, G 2018, 'FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION', 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada, 28/10/18 - 31/10/18.

APA

Raghavalu Thirumalai, D., Spear, M., Curling, S., Zhongwei, G., & Ormondroyd, G. (2018). FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. Ffurflen grynodeb 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada.

CBE

Raghavalu Thirumalai D, Spear M, Curling S, Zhongwei G, Ormondroyd G. 2018. FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. Ffurflen grynodeb 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada.

MLA

Raghavalu Thirumalai, Durai et al. FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, 28 Hyd 2018, Toronto, Canada, Crynodeb, 2018. 1 t.

VancouverVancouver

Raghavalu Thirumalai D, Spear M, Curling S, Zhongwei G, Ormondroyd G. FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. 2018. Ffurflen grynodeb 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada.

Author

Raghavalu Thirumalai, Durai ; Spear, Morwenna ; Curling, Simon et al. / FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION. Ffurflen grynodeb 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference, Toronto, Canada.1 t.

RIS

TY - CONF

T1 - FLEXURAL PERFORMANCE OF BIOBASED COMPOSITES - INSULATION FIBRES AS CORES FOR SANDWICH CONSTRUCTION

AU - Raghavalu Thirumalai, Durai

AU - Spear, Morwenna

AU - Curling, Simon

AU - Zhongwei, Guan

AU - Ormondroyd, Graham

PY - 2018/10/28

Y1 - 2018/10/28

N2 - In the current scenario of climate change, the world is looking towards reducing its carbon footprint by focusing on sustainable materials. Living sustainably by reducing waste, recycling, reducing consumption and generally adopting a “greener lifestyle” are all important ways in which the planet’s population can reduce its impact on the environment. Reducing environmental impact isalso possible by changing government policies to promote the construction with environmentally benign structures using naturally available or bio-derived materials. Materials scientists are trying to introduce new concepts for modern built architectures implementing the next generation of materials, such as bio-derived polymers and bio-derived insulation materials. Research is alsounderway to utilise agricultural wastes and co-products for value added products.This present work focuses on reviewing various bio-derived materials for making sandwich panels using wood fibre mats, sheep’s wool fibres, mineral wool fibres as alternatives to polyurethane (PU) foams or paper honeycomb cores. Face sheets were made using natural fibre flax fabrics. In the initial trials, epoxy resin was used to bind the fibre reinforcements. The panels were produced by cold cure, and tested for their flexural performance. In a further experiment, the synthetic resin was replaced by bio-based epoxy resin (Super Sap CLR epoxy resin) and the performance of sandwich panels was evaluated.Numerical models have been developed to study the flexural performance of these sandwich panels. Simulated results were then compared with the experimental data to check the variations in the model predictions.

AB - In the current scenario of climate change, the world is looking towards reducing its carbon footprint by focusing on sustainable materials. Living sustainably by reducing waste, recycling, reducing consumption and generally adopting a “greener lifestyle” are all important ways in which the planet’s population can reduce its impact on the environment. Reducing environmental impact isalso possible by changing government policies to promote the construction with environmentally benign structures using naturally available or bio-derived materials. Materials scientists are trying to introduce new concepts for modern built architectures implementing the next generation of materials, such as bio-derived polymers and bio-derived insulation materials. Research is alsounderway to utilise agricultural wastes and co-products for value added products.This present work focuses on reviewing various bio-derived materials for making sandwich panels using wood fibre mats, sheep’s wool fibres, mineral wool fibres as alternatives to polyurethane (PU) foams or paper honeycomb cores. Face sheets were made using natural fibre flax fabrics. In the initial trials, epoxy resin was used to bind the fibre reinforcements. The panels were produced by cold cure, and tested for their flexural performance. In a further experiment, the synthetic resin was replaced by bio-based epoxy resin (Super Sap CLR epoxy resin) and the performance of sandwich panels was evaluated.Numerical models have been developed to study the flexural performance of these sandwich panels. Simulated results were then compared with the experimental data to check the variations in the model predictions.

KW - Sandwich composite, Flax Fibres, Honeycomb cores, wool fibre, Finite Element Model

M3 - Abstract

T2 - 29th Inter-American Congress of Chemical Engineering incorporating the 68th Canadian Chemical Engineering Conference

Y2 - 28 October 2018 through 31 October 2018

ER -