Critical review of recent publications on use of natural composites in infrastructure

Liang R, Hota G. Fiber reinforced polymer composites for civil infrastructures. In: International conference on FRP composites for infrastructure applications, San Francisco; 4–6 November, 2009.

Brouwer, 2000, Natural fibre composites: where can flax compete with glass?, SAMPE J, 36, 18

Humphreys MF. The use of polymer composites in construction. In: International conference on smart and sustainable built environment, Brisbane, Australia; 2003.

Mohanty, 2001, Surface modifications of natural fibers and performance of the resulting biocomposites: an overview, Compos Interface, 8, 313, 10.1163/156855401753255422

John, 2008, Recent developments in chemical modification and characterization of natural fiber-reinforced composites, Polym Compos, 187, 10.1002/pc.20461

Stamboulis, 2000, Environmental durability of flax fibres and their composites based on polypropylene matrix, Appl Compos Mater, 7, 273, 10.1023/A:1026581922221

Saha S. A study on effect of fiber parameters on mechanical behaviour of natural fiber based polymer composites. BTech Thesis, National Institute of Technology, Rourkela 769008; 2011.

Bismarck, 2005, Plant fibers as reinforcement for green composites, 37

Ochi, 2008, Mechanical properties of kenaf fibers and kenaf/PLA composites, Mech Mater, 40, 446, 10.1016/j.mechmat.2007.10.006

Munder, 2005, Processing of bast fiber plants for industrial application, 109

Beckwith, 2003, Natural fiber reinforcement materials: lower cost technology for composites applications, Compos Fab, 12

Barbero, 2011

Fowler, 2006, Biocomposites: technology, environmental credentials and market forces, J Sci Food Agric, 86, 1781, 10.1002/jsfa.2558

Malkapuram, 2009, Recent development in natural fiber reinforced polypropylene composites, J Reinf Plast Compos, 28, 1169, 10.1177/0731684407087759

Mohanty, 2000, Biofibres, biodegradable polymers and biocomposites: an overview, Macromol Mater Eng, 276, 1, 10.1002/(SICI)1439-2054(20000301)276:1<1::AID-MAME1>3.0.CO;2-W

Oksman, 2001, High quality flax fibre composites manufactured by the resin transfer moulding process, J Reinf Plast Compos, 20, 621, 10.1177/073168401772678634

Rowell RM, Sanadi AR, Caulfield DF, Jacobson RE. Utilization of natural fibers in plastic composites: problems and opportunities. In: Lea˜o AL, Carvalho FX, Frollini E, editors. Lignocellulosic-plastics composites; 1997. p. 23–51.

Satyanarayana, 2009, Biodegradable composites based on lignocellulosic fibers – an overview, Prog Polym Sci, 34, 982, 10.1016/j.progpolymsci.2008.12.002

Symington, 2009, Tensile testing of cellulose based natural fibers for structural composite applications, J Compos Mater, 43, 1083, 10.1177/0021998308097740

Ray, 2005, Bamboo – a functionally graded composite – correlation between microstructure and mechanical strength, J Mater Sci, 40, 5249, 10.1007/s10853-005-4419-9

Kim, 2011, High strain-rate behavior of natural fiber-reinforced polymer composites, J Compos Mater

Mohanty, 2005, Natural fibers, biopolymers, and biocomposites: an introduction, 1

Grozdanov, 2010, Reuse of natural fiber reinforced eco-composites in polymer mortars, Polym Eng Sci, 50, 762, 10.1002/pen.21582

Bakare, 2010, Mechanical and thermal properties of sisal fiber-reinforced rubber seed oil-based polyurethane composites, Mater Des, 31, 4274, 10.1016/j.matdes.2010.04.013

Li, 2005, Synthesis, properties, and potential applications of novel thermosetting biopolymers from soybean and other natural oils, 727

Henton, 2005, Polylactic acid technology, 527

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Mohanty, 2005, Soy protein-based plastics, blends, and composites, 699

Netravali, 2007, Advanced ‘Green’ composites, Adv Compos Mater, 16, 269, 10.1163/156855107782325230

Haq, 2009, Processing techniques for bio-based unsaturated-polyester/clay nanocomposites: tensile properties, efficiency, and limits, Compos Part A – Appl Sci, 40, 394, 10.1016/j.compositesa.2009.01.003

Dweib, 2005, Houses using soy oil and natural fiber biocomposites, 751

Kumar, 2008, Water-induced hydrophobicity of soy protein materials containing 2,2-diphenyl-2-hydroxyethanoic acid, Biomacromolecules, 9, 2430, 10.1021/bm800396x

Kumar, 2009, Soy protein films with the hydrophobic surface created through non-covalent interactions, Ind Crop Prod, 29, 485, 10.1016/j.indcrop.2008.09.010

Williams, 2000, Composites from natural fibers and soy oil resins, Appl Compos Mater, 7, 421, 10.1023/A:1026583404899

Singh, 2005, Natural fiber composites for building applications, 261

Kreze, 2005, Flax fibers sorption properties influenced by different pretreatment processes, J Nat Fiber, 2, 25, 10.1300/J395v02n03_03

Pott GT, Hueting D, van Deursen J. Reduction of moisture sensitivity in wood and natural fibres for polymer composites. In: Proceedings of 3rd international wood and natural fibre composites symposium. Kessel/Germany; 19–20 September, 2000.

Pott GT, Hueting D, van Deursen J. A commercially attractive method to reduce moisture sensitivity of lignocellulose fibres, without the use of chemicals. In: Proceedings of BIOSOURCE HEMP 2000, Wolfsburg; 13–16 September, 2000.

Chabba, 2004, ‘Green’ composites using modified soy protein concentrate resin and flax fabrics and yarns, JSME Int J A – Mech M, 47, 556, 10.1299/jsmea.47.556

Newill JF, McKnight SH, Hoppel CPR, Cooper GR. Effects of coatings on moisture absorption of composite materials. ARL-TR-2099. Army Research Laboratory, Army Proving Ground, MD; 1999.

Doherty, 2007, Studies on polymers and composites from lignin and fiber derived from sugar cane, Polym Adv Technol, 18, 673, 10.1002/pat.879

Sorathia, 1997, Materials and fire threat, Fire Technol, 33, 260, 10.1023/A:1015371806854

Chapple, 2010, Flammability of natural fiber-reinforced composites and strategies for fire retardancy: a review, J Thermoplast Compos, 23, 871, 10.1177/0892705709356338

Bourbigot, 2004, Recent advances for intumescent polymers, Macromol Mater Eng, 289, 499, 10.1002/mame.200400007

Plackett, 2005, Polylactide-based biocomposites, 579

Burguen˜o, 2004, Load-bearing natural fiber composite cellular beams and panels, Compos Part A – Appl Sci, 35, 645, 10.1016/j.compositesa.2004.02.012

Ibrahim, 2010, Effect of fiber treatment on mechanical properties of kenaf fiber–ecoflex composites, J Reinf Plast Compos, 29, 2192, 10.1177/0731684409347592

De, 2007, Grass fiber reinforced phenol formaldehyde resin composite: preparation, characterization and evaluation of properties of composite, Polym Adv Technol, 18, 72, 10.1002/pat.854

Van de Weyenberg, 2006, Improving the properties of UD flax fibre reinforced composites by applying an alkaline fibre treatment, Compos Part A – Appl Sci, 37, 1368, 10.1016/j.compositesa.2005.08.016

Hu, 2007, Fabrication and mechanical properties of completely biodegradable hemp fiber reinforced polylactic acid composites, J Compos Mater, 41, 1655, 10.1177/0021998306069878

Chang, 2009, Ultrasound-assisted surface-modification of wood particulates for improved wood/plastic composites, Compos Interface, 16, 687, 10.1163/092764409X12477425232217

Rahman, 2007, Surface treatment of coir (Cocos nucifera) fibers and its influence on the fibers’ physico-mechanical properties, Compos Sci Technol, 67, 2369, 10.1016/j.compscitech.2007.01.009

Xie, 2010, Silane coupling agents used for natural fiber/polymer composites: a review, Compos Part A – Appl Sci, 41, 806, 10.1016/j.compositesa.2010.03.005

Valadez-Gonzalez, 1999, Effect of fiber surface treatment on the fiber–matrix bond strength of natural fiber reinforced composites, Compos Part B – Eng, 30, 309, 10.1016/S1359-8368(98)00054-7

Qiu, 2011, Hemp-fiber-reinforced unsaturated polyester composites: optimization of processing and improvement of interfacial adhesion, J Appl Polym Sci, 121, 862, 10.1002/app.33674

Wood K. Researchers nano-enhance natural fiber: Mississippi state university uses nanoparticle impregnation to improve the performance of kenaf fiber in composites. Composites World (13 July 2009). <www.compositesworld.com> [accessed 22.07.10].

Huang, 2009, Biodegradable green composites made using bamboo micro/nano-fibrils and chemically modified soy protein resin, Compos Sci Technol, 69, 1009, 10.1016/j.compscitech.2009.01.014

Ray, 2005, Thermoset biocomposites, 291

Drzal LT, Mohanty AK, Burgueno R, Misra M. Biobased structural composite materials for housing and infrastructure applications: opportunities and challenges. NSF-PATH Housing Research Agenda, PI: Syal M; 2004.

Singh, 2000, The durability of jute fibre-reinforced phenolic composites, Compos Sci Technol, 60, 581, 10.1016/S0266-3538(99)00172-4

Singh, 2005, Performance of pultruded jute fibre reinforced phenolic composites as building materials for door frame, J Environ Polym Degr, 13, 127, 10.1007/s10924-005-2944-x

Mehta, 2006, Effect of accelerated weathering on biocomposites processed by SMC and compression molding, J Environ Polym Degr, 14, 359, 10.1007/s10924-006-0029-0

Satyanarayana, 1990, Fabrication and properties of lignocellulosic fiber-incorporated polyester composites, vol. 1

Dash, 2000, Novel low-cost jute-polyester composites. III. Weathering and thermal behavior, J Appl Polym Sci, 78, 1671, 10.1002/1097-4628(20001128)78:9<1671::AID-APP130>3.0.CO;2-8

Joseph, 2006, Environmental durability of banana-fiber-reinforced phenol formaldehyde composites, J Appl Polym Sci, 100, 2521, 10.1002/app.23680

Sherman LM. Natural fibers: the new fashion in automotive plastics. Plastics technology online. Gardner Publications, Inc.; 1999. <www.ptonline.com> [accessed 22.07.10].

Defosse M. Natural fibers’ growing needs. PlasticsToday.com (29 February 2004). <www.plasticstoday.com> [accessed 22.07.10].

O’Donnell, 2004, Natural fiber composites with plant oil-based resin, Compos Sci Technol, 64, 1135, 10.1016/j.compscitech.2003.09.024

Lackey E, Vaughan JG, Inamdar K, Hancock B. Statistical characterization of pultruded composites with natural fiber reinforcements. In: Proceedings of COMPOSITES 2004, Tampa, Florida; 6–8 October, 2004.

Chandrashekhara K. Energy efficient and sustainable building enclosures using bio-based materials. NSF-PATH Housing Research Agenda, PI: Syal M; 2004.

Peng, 2011, Properties of natural fibre composites made by pultrusion process, J Compos Mater

Mutnuri B, Aktas CJ, Marriott J, Bilec M, GangaRao H. Natural fiber reinforced pultruded composites. In: Proceedings of COMPOSITES 2010, Las Vegas, Nevada; 9–11 February, 2010.

Oksman, 2003, Natural fibres as reinforcement in polylactic acid (PLA) composites, Compos Sci Technol, 63, 1317, 10.1016/S0266-3538(03)00103-9

Patel, 2005, How sustainable are biopolymers and biobased products? The hope, the doubt, and the reality, 833

Cramer SM. Structural design and materials – research needed to reinvent housing in the United States. NSF-PATH Housing Research Agenda, PI: Syal M; 2004.

Joshi, 2004, Are natural fiber composites environmentally superior to glass fiber reinforced composites?, Compos Part A – Appl Sci, 35, 371, 10.1016/j.compositesa.2003.09.016

Mueller, 2003, New discovery in the properties of composites reinforced with natural fibers, J Ind Text, 33, 111, 10.1177/152808303039248

Baksi S, Srikanth G, Babu MS, Biswas S. Composites as building material – Indian scenario. Technology information, forecasting and assessment council. Department of Science and Technology, Govt of India. <www.tifac.org> [accessed 08.11.10].

Koebel CT. Housing technology, community and the economy. NSF-PATH Housing Research Agenda, PI: Syal M; 2004.

Van Rijswijk K, Brouwer WD, Beukers A. Application of natural fibre composites in the development of rural societies. Delft University of Technology; 2001.