Experimental characterization of natural fibre–soil interaction: lessons for earthen construction

Earthen construction materials are the subject of renewed interest due to the rising alarm about environmental pollution from the construction industry. Current research efforts are focused on improving the mechanical properties of earthen materials to make them modern and competitive. To increase s...

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Published inMaterials and structures Vol. 54; no. 3
Main Authors Vincenzini, Alessandra, Augarde, Charles E., Gioffrè, Massimiliano
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.06.2021
Springer Nature B.V
Subjects
Baking
Building construction
Building Materials
Civil Engineering
Composite materials
Construction industry
Construction materials
Engineering
Fiber reinforcement
Fibers
Machines
Manufacturing
Materials Science
Mechanical properties
Original Article
Processes
Pull out tests
Sodium bicarbonate
Soil investigations
Soil mechanics
Soil mixtures
Soil stabilization
Soils
Solid Mechanics
Theoretical and Applied Mechanics
Earthen materials
experimental charachterization
Pull-out test
Jute fibre
Sustainability
Natural fibre
Fibre reinforcement
Online AccessGet full text

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Abstract Earthen construction materials are the subject of renewed interest due to the rising alarm about environmental pollution from the construction industry. Current research efforts are focused on improving the mechanical properties of earthen materials to make them modern and competitive. To increase strength and improve ductility fibres can be added to the soil mixture and if natural fibres are used one achieves stabilisation in an environmentally friendly way. Several previous studies have dealt with the behaviour of this composite material at a macroscopic level and on the general interaction between fibres and soil, but there is little published research on the interfacial mechanical interaction between natural fibre reinforcement and a soil matrix which is key to the former. This paper attempts to fill this gap by presenting and discussing laboratory results from a large campaign of pull-out tests conducted on composite earthen samples. The variables investigated here are the nature of the fibres (i.e. single or collections twisted together) and the use of fibre treatments such as PVA glue and baking soda. In the study both fibre–soil failure and soil-soil failure are investigated and the results lead to conclusions as to appropriate use of fibres to reinforce earthen construction materials.
AbstractList Earthen construction materials are the subject of renewed interest due to the rising alarm about environmental pollution from the construction industry. Current research efforts are focused on improving the mechanical properties of earthen materials to make them modern and competitive. To increase strength and improve ductility fibres can be added to the soil mixture and if natural fibres are used one achieves stabilisation in an environmentally friendly way. Several previous studies have dealt with the behaviour of this composite material at a macroscopic level and on the general interaction between fibres and soil, but there is little published research on the interfacial mechanical interaction between natural fibre reinforcement and a soil matrix which is key to the former. This paper attempts to fill this gap by presenting and discussing laboratory results from a large campaign of pull-out tests conducted on composite earthen samples. The variables investigated here are the nature of the fibres (i.e. single or collections twisted together) and the use of fibre treatments such as PVA glue and baking soda. In the study both fibre–soil failure and soil-soil failure are investigated and the results lead to conclusions as to appropriate use of fibres to reinforce earthen construction materials.
ArticleNumber 110
Author Augarde, Charles E.
Vincenzini, Alessandra
Gioffrè, Massimiliano
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Issue 3
Keywords Earthen materials
experimental charachterization
Pull-out test
Jute fibre
Sustainability
Natural fibre
Fibre reinforcement
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References_xml – reference: Jaquin P (2008) Analysis of historic rammed earth construction. Ph.D. Dissertation, Durham University, UK
– reference: SmithJCAugardeCOptimum water content tests for earthen construction materialsProc Inst Civil Eng Constr Mater201416711412310.1680/coma.12.00040
– reference: MugudaSBoothSJHughesPNAugardeCEPerlotCBrunoAWGallipoliDMechanical properties of biopolymer-stabilised soil-based construction materialsGéotech Lett2017730931410.1680/jgele.17.00081
– reference: TangC-SShiBZhaoL-ZInterfacial shear strength of fiber reinforced soilGeotext Geomembr201028546210.1016/j.geotexmem.2009.10.001
– reference: ZamriMHAkilHMBakarAAIshakZAMChengLWEffect of water absorption on pultruded jute/glass fiber-reinforced unsaturated polyester hybrid compositesJ Compos Mater201246516110.1177/0021998311410488
– reference: MortonTLittleBBuilding with earth in Scotland: innovative design and sustainability2001EdinburghExecutive Central Research Unit
– reference: YetimogluTSalbasOA study on shear strength of sands reinforced with randomly distributed discrete fibersGeotext Geomembr20032110311010.1016/S0266-1144(03)00003-7
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– reference: EastonDThe Rammed Earth House2007White River JunctionChelsea Green Publishing Company
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– reference: WalkerPKeableRMartinJManiatidisVRammed earth: design and construction guidelines2005WatfordBRE Bookshop
– reference: LingHILiuHKaliakinVNLeshchinskyDAnalyzing dynamic behavior of geosynthetic-reinforced soil retaining wallsJ Eng Mech200413091192010.1061/(ASCE)0733-9399(2004)130:8(911)
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Snippet Earthen construction materials are the subject of renewed interest due to the rising alarm about environmental pollution from the construction industry....
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crossref
springer
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Publisher
SubjectTerms Baking
Building construction
Building Materials
Civil Engineering
Composite materials
Construction industry
Construction materials
Engineering
Fiber reinforcement
Fibers
Machines
Manufacturing
Materials Science
Mechanical properties
Original Article
Processes
Pull out tests
Sodium bicarbonate
Soil investigations
Soil mechanics
Soil mixtures
Soil stabilization
Soils
Solid Mechanics
Theoretical and Applied Mechanics
Title Experimental characterization of natural fibre–soil interaction: lessons for earthen construction
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