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Erschienen in:

2021 | OriginalPaper | Buchkapitel

4. Mechanical Properties

verfasst von : It-Meng Low, Thamer Alomayri, Hasan Assaedi

Erschienen in: Cotton and Flax Fibre-Reinforced Geopolymer Composites

Verlag: Springer Singapore

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Abstract

This chapter describes the mechanical properties of geopolymer reinforced with natural fibres and/or nanofillers. Results show that the appropriate addition of natural fibres and/or nanofillers can improve the mechanical and fracture properties of geopolymer composites and nanocomposites. Results show that the mechanical properties of these materials are improved by increasing the content of natural fibres.

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Vorheriges Kapitel Physical Properties

Nächstes Kapitel Moisture Absorption and Durability

Abanilla MA, Karbhari VM, Li Y (2006) Interlaminar and interlaminar durability characterization of wet layup carbon/epoxy used in external strengthening. Compos Part B 37:650–661CrossRef

Alamri H, Low IM (2012) Characterization of epoxy hybrid composites filled with cellulose fibres and nano-SiC. J Appl Polym Sci 126:221–231CrossRef

Alamri H, Low IM (2012) Mechanical properties and water absorption behaviour of recycled cellulose fibre reinforced epoxy composites. Polym Test 31:620–628CrossRef

Alamri H, Low IM (2012) Microstructural, mechanical, and thermal characteristics of recycled cellulose fiber-halloysite-epoxy hybrid nanocomposites. Polym Compos 33:589–600CrossRef

Alhuthali A, Low IM, Dong C (2012) Characterisation of the water absorption, mechanical and thermal properties of recycled cellulose fibre reinforced vinyl-ester eco-nanocomposites. Compos B 43:2772–2781CrossRef

Alomayri T, Low IM (2013) Synthesis and characterization of mechanical properties in cotton fiber-reinforced geopolymer composites. J Asian Ceram Soc 1:30–34CrossRef

Alomayri T, Shaikh FUA, Low IM (2013) Characterisation of cotton fibre-reinforced geopolymer composites. Compos Part B Eng 50:1–6CrossRef

Alomayri T, Shaikh FUA, Low IM (2013) Thermal and mechanical properties of cotton fabric-reinforced geopolymer composites. J Mater Sci 48:6746–6752CrossRef

Alomayri T, Shaikh FUA, Low IM (2014) Effect of fabric orientation on mechanical properties of cotton fabric reinforced geopolymer composites. Mater Des 57:360–365CrossRef

Alomayri T, Shaikh FUA, Low IM (2014) Synthesis and mechanical properties of cotton fabric reinforced geopolymer composites. Compos Part B 60:36–42CrossRef

Alzeer M, MacKenzie K (2013) Synthesis and mechanical properties of novel composites of inorganic polymers (geopolymers) with unidirectional natural flax fibres (phormium tenax). Appl Clay Sci 75:148–152CrossRef

Assaedi H, Alomayri T, Shaikh FUA, Low IM (2015) Characterisation of mechanical and thermal properties in flax fabric reinforced geopolymer composites. J Adv Ceram 4:272–281CrossRef

Assaedi H, Shaikh FUA, Low IM (2016) Effect of nano-clay on mechanical and thermal properties of geopolymer. J Asian Ceram Soc 4:19–28CrossRef

Avella M, Buzarovska A, Errico ME, Gentile G, Grozdanov A (2009) Eco-challenges of bio-based polymer composites. Materials 2:911–925CrossRef

Behnood A, Ghandehari M (2009) Comparison of compressive and splitting tensile strength of high-strength concrete with and without polypropylene fibers heated to high temperatures. Fire Safety J 44:1015–1022CrossRef

Boonserma K, Sata V, Pimraksab K, Chindaprasirta P (2012) Improved geopolymerization of bottom ash by incorporating fly ash and using waste gypsum as additive. Cem Concr Compos 34:819–824CrossRef

Chen H, Miao M, Ding X (2009) Influence of moisture absorption on the interfacial strength of bamboo/vinyl ester composites. Compos A Appl Sci Manuf 40:2013–2019CrossRef

Dias DP, Thaumaturgo C (2005) Fracture toughness of geopolymeric concretes reinforced with basalt fibres. Cem Concr Compos 27:49–54CrossRef

Dlugosz J (1965) The fine structure of cotton fibre as revealed by swelling during methacrylate embedding. Polymer 6:427–436CrossRef

Dombrowski K, Buchwald A, Weil M (2007) The influence of calcium content on the structure and thermal performance of fly ash based geopolymers. J Mater Sci 42:3033–3043CrossRef

Filho RDT, Ghavami K, England GL (2003) Development of vegetable fibre-mortar composites of improved durability. Cem Concr Compos 25:185–196CrossRef

Franco-Marquès E, Méndez JA, Pèlach MA, Vilaseca F, Bayer J, Mutjé P (2011) Influence of coupling agents in the preparation of polypropylene composites reinforced with recycled fibers. Chem Eng J 166:1170–1178CrossRef

Graupner N (2008) Application of lignin as natural adhesion promoter in cotton fibre-reinforced poly(lactic acid) (PLA) composites. J Mater Sci 43:5222–5229CrossRef

Hakamy A, Shaikh FUA, Low IM (2013) Microstructures and mechanical properties of hemp fabric reinforced organoclay–cement nanocomposites. Constr Build Mater 49:298–307CrossRef

Hakamy A, Shaikh FUA, Low IM (2013) Thermal and mechanical properties of hemp fabric-reinforced nanoclay–cement nanocomposites. J Mater Sci 49:1684–1694CrossRef

Hakamy A, Shaikh FUA, Low IM (2014) Thermal and mechanical properties of hemp fabric-reinforced nanoclay–cement nanocomposites. J Mater Sci 49:1684–1694CrossRef

Hosseini P, Hosseinpourpia R, Pajum A, Khodavirdi MM, Izadi H, Vaezi A (2014) Effect of nanoparticles and aminosilane interaction on the performances of cement-based composites: an experimental study. Constr Build Mater 66:113–124CrossRef

Joseph PV, Joseph K, Thomas S (1999) Effect of processing variables on the mechanical properties of sisal fiber-reinforced polypropylene composites. Compos Sci Technol 59:1625–1640CrossRef

Khan JA, Khan MA, Islam R (2012) Effect of potassium permanganate on mechanical thermal and degradation characteristics of jute fabric-reinforced polypropylene composite. J Reinf Plast Compos 31:1725–1736CrossRef

Korniejenko K, Łach M, Hebdowska-Krupa M, Mikuła J (2018) The mechanical properties of flax and hemp fibres reinforced geopolymer composites. IOP Conf Ser Mater Sci Eng 379, 012023

Li W, Xu J (2009) Mechanical properties of basalt fibre reinforced geopolymeric concrete under impact loading. Mater Sci Eng 505:178–186CrossRef

Lin T, Jia D, He P et al (2009) Thermal-mechanical properties of short carbon fiber reinforced geopolymer matrix composites subjected to thermal load. J Cent South Univ Tech 16:881–886CrossRef

Low IM, McGrath M, Lawrence D, Schmidt P, Lane J, Latella BA et al (2007) Mechanical and fracture properties of cellulose-fibre-reinforced epoxy laminates. Compos Part A Appl Sci Manuf 38:963–974CrossRef

Low IM, Somers J, Kho HS, Davies IJ, Latella BA (2009) Fabrication and properties of recycled cellulose fibre-reinforced epoxy composites. Compos Interfac 16:659–669CrossRef

Mishra S, Mohanty AK, Drzal LT, Misra M, Parija S, Nayak SK, Tripathy SS (2003) Studies on mechanical performance of biofibre/glass reinforced polyester hybrid composites. Compos Sci Technol 63:1377–1385CrossRef

Mobasher B, Peled A, Pahilajani J (2006) Distributed cracking and stiffness degradation in fabric-cement composites. Mater Struct 39:317–331CrossRef

Naji Givi A, Abdul Rashid S, Aziz FNA, Salleh MAM (2010) Experimental investigation of the size effects of SiO₂ nanoparticles on the mechanical properties of binary blended concrete. Compos Part B Eng 41:673–677

Nakagaito AN, Yano H (2004) The effect of morphological changes from pulp fibre towards nano-scale fibrillated cellulose on the mechanical properties of high-strength plant fibre based composites. Appl Phys A 78:547–552CrossRef

Noumowe A (2005) Mechanical properties and microstructure of high strength concrete containing polypropylene fibres exposed to temperatures up to 200 °C. Cement Concr Res 35:2192–2198CrossRef

Pakravan H, Jamshidi M, Latifi M, Neshastehriz M (2011) Application of polypropylene nonwoven fabrics for cement composites reinforcement. Asian J Civ Eng 12:551–562

Phair JW, van Deventer JSJ (2001) Effect of silicate activator pH on the leaching and material characteristics of waste-based inorganic polymers. Miner Eng 14:289–304CrossRef

Phoo-ngernkham T, Chindaprasirt P, Sata V, Hanjitsuwan S, Hatanaka S (2014) The effect of adding nano-SiO₂ and nano-Al₂O₃ on properties of high calcium fly ash geopolymer cured at ambient temperature. Mater Des 55:58–65CrossRef

Poletanovic B, Dragas J, Ignjatovic I, Komljenovic M, Merta I (2020) Physical and mechanical properties of hemp fibre reinforced alkali-activated fly ash and fly ash/slag mortars. Constr Build Mater 259:119677

Qing Y, Zenan Z, Deyu K, Rongshen C (2007) Influence of nano-SiO₂ addition on properties of hardened cement paste as compared with silica fume. Constr Build Mater 21:539–545CrossRef

Reis JML (2006) Fracture and flexural characterization of natural fiber-reinforced polymer concrete. Constr Build Mater 20:673–678CrossRef

Rickard WDA, Williams R, Temuujin J, van Riessen A (2011) Assessing the suitability of three Australian fly ashes as an aluminosilicate source for geopolymers in high temperature applications. Mater Sci Eng 528:3390–3397CrossRef

Rowles M, O’Connor B (2003) Chemical optimisation of the compressive strength of aluminosilicate geopolymers synthesised by sodium silicate activation of metakaolinite. J Mater Chem 13:1161–1165CrossRef

Sankar K, Sá Ribeiro RA, Sá Ribeiro MG, Kriven WM (2017) Potassium-based geopolymer composites reinforced with chopped bamboo fibers. J Am Ceram Soc 100:49–55. https://doi.org/10.1111/jace.14542

Silva FA, Mobasher B, Tolêdo Filho RD (2009) Cracking mechanisms in durable sisal fibre reinforced cement composites. Cem Concr Compos 31:721–730

Silva FA, Filho RDT, Filho JAM, Fairbairn EMR (2010) Physical and mechanical properties of durable sisal fibre–cement composites. Constr Build Mater 24:777–785CrossRef

Sim J, Park C, Moon DY (2005) Characteristics of basalt fiber as a strengthening material for concrete structures. Compos Part B 36:504–512CrossRef

Simonova H, Kucharczykova B, Topolar L, Kersner Z, Merta I, Dragas J, Ignjatovic I, Komljenovic M, Nikolic V (2018) Crack initiation of selected geopolymer mortars with hemp fibers. Procedia Struct Integr 13:578–583CrossRef

Soroushian P, Elzafraney M, Nossoni A, Chowdhury H (2006) Evaluation of normal weight and light-weight fillers in extruded cellulose fiber cement products. Cem Concr Compos 28:69–76CrossRef

Talimi M, Rizvi G (2008) Properties enhancement of PLA-natural fibre composites using an ethylene copolymer. World J Eng 20:1461–1462

Tolêdo Filho RD, Romildo D, Scrivener K, England GL, Ghavami K (2000) Durability of alkali-sensitive sisal and coconut fibres in cement mortar composites. Cem Concr Compos 22:127–143CrossRef

Tolêdo Filho RD, Romildo D, Khosrow G, England GL, Scrivener K (2003) Development of vegetable fibre–mortar composites of improved durability. Cem Concr Compos 25:185–196CrossRef

Uysal M, Tanyildizi H (2012) Estimation of compressive strength of self compacting concrete containing polypropylene fiber and mineral additives exposed to high temperature using artificial neural network. Constr Build Mater 27:404–414CrossRef

van Jaarsveld JGS, van Deventer JSJ, Schwartzman A (1999) The potential use of geopolymeric materials to immobilise toxic metals. Material and leaching characteristics. Miner Eng 12:75–91CrossRef

Wambua P, Ivens J, Verpoest I (2003) Natural fibres: Can they replace glass in fibre reinforced plastics? Compos Sci Technol 63:1259–1264CrossRef

Yip CK, van Deventer JSJ (2003) Microanalysis of calcium silicate hydrate gel formed within a geopolymeric binder. J Mater Sci 38:3851–3860CrossRef

Yip CK, Lukey GC, Van Deventer JSJ (2005) The coexistence of geopolymeric gel and calcium silicate hydrates at the early stage of alkaline activation. Cem Concr Res 35:1688–1697CrossRef

Zhang J, Li VC (2004) Simulation of crack propagation in fibre-reinforced concrete by fracture mechanics. Cem Concr Res 34:333–339CrossRef

Zhang W, Okubayashi S, Bechtold T (2005) Fibrillation tendency of cellulosic fibers part 3: effects of alkali pretreatment of lyocell fiber. Carbohydr Polym 59:173–179CrossRef

Zhang Y, Sun W, Li Z (2006) Impact behavior and microstructural characteristics of PVA fiber reinforced fly ash-geopolymer boards prepared by extrusion technique. J Mater Sci 41:2787–2794CrossRef

Titel: Mechanical Properties
verfasst von: It-Meng Low
Thamer Alomayri
Hasan Assaedi
Verlag: Springer Singapore
Buch: Cotton and Flax Fibre-Reinforced Geopolymer Composites
Print ISBN: 978-981-16-2280-9

Electronic ISBN: 978-981-16-2281-6

Copyright-Jahr: 2021
DOI: https://doi.org/10.1007/978-981-16-2281-6_4

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