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European Journal of Wood and Wood Products
Erschienen in: European Journal of Wood and Wood Products 1/2018

19.04.2017 | Original

Mechanical properties of wood-plastic composites made from various wood species with different compatibilisers

verfasst von: Bernard Effah, Albert Van Reenen, Martina Meincken

Erschienen in: European Journal of Wood and Wood Products | Ausgabe 1/2018

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Abstract

Wood-plastic composites (WPCs) were prepared containing wood from six different tree species invasive to South Africa, low density polyethylene (LDPE) and three different compatibilisers, namely poly(ethylene-co-vinyl alcohol) (EVOH), polyethylene-graft maleic anhydride (PE-g-MA) and thermally degraded LDPE (dPE). Tensile modulus, tensile strength, elongation at break and impact strength were determined. The tensile modulus of compatibilised composites was high with PE-g-MA and low for EVOH for all the species, while it increased significantly with increasing wood load for most uncompatibilised composites. Composites containing PE-g-MA and dPE had a high tensile strength, whereas composites containing EVOH proved to be inferior. Composites with PE-g-MA as compatibiliser showed the lowest elongation at break compared to other composites, for all wood species but pine. The addition of compatibilisers improved the impact strength of most of the composites. The mechanical performance of the composites improved when PE-g-MA or dPE compatibilisers were added, whereas EVOH as compatibiliser tended to yield inferior results. The study proved that the investigated invasive wood species—mostly hardwoods—can be incorporated into WPCs. It was shown that dPE, a novel and inexpensive compatibiliser that can be sourced from waste materials, is an effective adhesion promoter in WPCs independent of the wood species used.
Vorheriger Artikel Predicting mechanical degradation indicators of silver fir wooden strips using near infrared spectroscopy
Nächster Artikel Mechanical properties of wood of two Mexican oaks: relationship to selected physical properties

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Literatur
Abdelaal MY, Elmossalamy EH, Bahaffi SO (2012) Enhancement of polyolefins compatibility with natural fibres through chemical modification. Am J Polym Sci 2(5):102–108CrossRef
ASTM D1822-13 (2013) Standard test method for tensile-impact energy to break plastics and electrical insulating materials. ASTM International, West Conshohocken, PA
ASTM D638-10 (2010) Standard test method for tensile properties of plastics. ASTM International, West Conshohocken, PA
Balasuriya PW Ye L, Mai YW (2001) Mechanical properties of wood flake–polyethylene composites. Part I: Effects of processing methods and matrix melt flow behaviour. Compos Part A Appl Sci Manuf 32(5):619–629
Basson NC (2013) The effect of molecular composition on the properties of polyolefin-wood composites. PhD thesis, University of Stellenbosch, South Africa
Bledzki AK, Gassan J (1999) Composites reinforced with cellulose based fibres. Progress in polymer science 24(2):221–274CrossRef
Bledzki AK, Faruk O, Huque M (2002) Physico-mechanical studies of wood fibre reinforced composites. Polym Plast Technol Eng 41(3):435–451CrossRef
Caulfield DF, Clemons C, Jacobson RE, Rowell RM (2005) Wood thermoplastic composites. Handbook of wood chemistry and wood composites, p 365
Drummond KM, Hopewell JL, Shanks RA (2000) Crystallization of low-density polyethylene and linear low-density polyethylene-rich blends. J Appl Polym Sci 78(5):1009–1016CrossRef
Ek M, Gellerstedt G, Henriksson G (2009) Wood chemistry and biotechnology, vol 1. Walter de Gruyter, p 24
Elkhaoulani A, Arrakhiz FZ, Benmoussa K, Bouhfid R, Qaiss A (2013) Mechanical and thermal properties of polymer composite based on natural fibres: Moroccan hemp fibres/polypropylene. Mater Des 49:203–208
Gozdecki C, Zajchowski S, Kociszewski M, Wilczyński AD, Mirowski J (2011) Effect of wood particle size on mechanical properties of industrial wood particle-polyethylene composites. Polimery 56:375–380
Guo G, Rizvi GM, Park CB (2008) Wood-polymer composite foams. In: Niska KO, Sain M (eds) Wood-polymer composites, Chap. 11. Woodhead Publishing, CRC Press, Cambridge
Harper D, Wolcott M (2004) Interaction between coupling agent and lubricants in wood–polypropylene composites. Compos Part A Appl Sci Manuf 35(3):385–394
Hernández V (2013) Radiata pine pH and buffering capacity: effect of age and location in the stem. Maderas. Ciencia y tecnología, 15(1):73–78
Hindi SS (2012) Contribution of parent wood to the final properties of the carbonaceous skeleton via pyrolysis. Int J Sci Eng Investig (IJSEI) 1(8):12
Hodzic A, Shanks R (2014) Natural fibre composites: Materials, processes and properties. Woodhead Publishing
Kalita D, Netravali AN (2015) Interfaces in green composites: a critical review. Rev Adhes Adhes 3(4):386–443
Kim JK, Pal K (2010) Recent advances in the processing of wood-plastic composites. Springer
Kim JP, Yoon TH, Mun SP, Rhee JM, Lee JS (2006) Wood–polyethylene composites using ethylene-vinyl alcohol copolymer as adhesion promoter. Bioresour Technol 97(3):494–499CrossRefPubMed
Klyosov AA (2007) Wood-plastic composites. Wiley
Kord B (2011) Influence of maleic anhydride on the flexural, tensile and impact characteristics of sawdust flour reinforced polypropylene composite. World Appl Sci J 12(7):1014–1016
Li S, Wang C, Chu F, Xia J, Xu Y (2013) Effects of compatibilizers on composites of acorn shell powder and low density polyethylene. Bioresources 8(4):5817–5825
Macdonald IAW, Reaser JK, Bright C, Neville LE, Howard GW, Murphy SJ, Preston G (2003) Invasive alien species in Southern Africa: national reports and directory of resources. Invasive alien species in Southern Africa: National reports and directory of resources
Miléo PC, Leão RM, Luz SM, Rocha GJ, Gonçalves AR (2015) Typical Brazilian Lignocellulosic natural fibres as reinforcement of thermosetting and thermoplastics matrices. Lignocellulosic polymer composites: processing, characterization, and properties, pp 103–124
Mohanty AK, Misra M, Drzal LT (2005) Natural fibres, biopolymers and biocomposites. CRC Press
Ndiaye D, Matuana LM, Morlat-Therias S, Vidal L, Tidjani A, Gardette JL (2011) Thermal and mechanical properties of polypropylene/wood-flour composites. J Appl Polym Sci 119(6):3321–3328CrossRef
Ndlovu SS, Van Reenen AJ, Luyt AS (2013) LDPE—wood composites utilizing degraded LDPE as compatibilizer. Compos Part A Appl Sci Manuf 51:80–88
Niska KO, Sain M (2008) Wood-polymer composites. Elsevier
Niska KO, Sanadi AR (2008) Interactions between wood and synthetic polymers. In: Wood-polymer composites. CRC Press LLC
Rosa MF, Chiou BS, Medeiros ES, Wood DF, Mattoso LH, Orts WJ, Imam SH (2009) Biodegradable composites based on starch/EVOH/glycerol blends and coconut fibres. J Appl Polym Sci 111(2):612–618
Rowell RM (2007) Challenges in biomass–thermoplastic composites. J Environ Polym Degr 15(4):229–235CrossRef
Sain M, Pervaiz M (2008) Mechanical properties of wood polymer composites. Wood-polymer composites. Woodhead Publishing in Materials. Cambridge, England, pp 101–117
Shebani AN, Van Reenen AJ, Meincken M (2009) The effect of wood species on the mechanical and thermal properties of wood—LLDPE composites. J Compos Mater 43(11):1305–1318CrossRef
Sihombing H, Rassiah K, Ashaari Z, Yuhazri YY (2012) An analysis and development of recycled materials for wood plastic composite product. Elixir Mech Eng 51:10834–10840
Spiridon I (2014) Natural fibre-polyolefin composites. Mini-review. Cellul Chem Technol 48(7–8):599–612
Stark NM, Matuana LM (2007) Characterization of weathered wood–plastic composite surfaces using FTIR spectroscopy, contact angle, and XPS. Polym Degrad Stab 92(10):1883–1890CrossRef
Stokke DD, Gardner DJ (2003) Fundamental aspects of wood as a component of thermoplastic composites. J Vinyl Add Tech 9(2):96–104CrossRef
Stokke DD, Wu Q, Han G (2013) Introduction to wood and natural fibre composites. Wiley
Ver Elst P, Pieterse PJ (2006) Quality as a factor influencing the possible utilization of eight exotic legume species as mulches. S Afr J Plant Soil 23(4):237–245CrossRef
Walker JC (2006) Primary wood processing: principles and practice. Springer
Wang RM, Zheng SR, Zheng YG (2011) Polymer matrix composites and technology. Elsevier
Wechsler A, Hiziroglu S (2007) Some of the properties of wood–plastic composites. Build Environ 42(7):2637–2644CrossRef
Youngquist JA, Rowell RM (1989) Opportunities for combining wood with non-wood materials. In: Proc. 23rd Washington State University, Int. Particle/Composite Mater., Washi lastics Additives and Compounding
Metadaten
Titel
Mechanical properties of wood-plastic composites made from various wood species with different compatibilisers
verfasst von
Bernard Effah
Albert Van Reenen
Martina Meincken
Publikationsdatum
19.04.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
European Journal of Wood and Wood Products / Ausgabe 1/2018
Print ISSN: 0018-3768
Elektronische ISSN: 1436-736X
DOI
https://doi.org/10.1007/s00107-017-1186-7

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