PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Influence of residue type on quality properties of particleboard manufactured from fast-grown tree of heaven (Ailanthus altissima (Mill.) Swingle)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this study, the effect of residue types (soundwood, branchwood and bark) on the quality properties of particleboards made from the tree of heaven (Ailanthus altissima (Mill.) Swingle) was investigated. For this purpose, the soundwood, branchwood and bark mixed at different ratios were used in the production of particleboards. Modulus of rupture (MOR), modulus of elasticity (MOE), internal bond strength (IB), thickness swelling (TS) and formaldehyde emission (FE) of the specimens were then tested. The chemical and anatomical properties of the residue types were also determined. Residue type was found to have an impact on the properties of particleboards. The addition of bark and branchwood improved the thickness swelling (2 h immersion) and formaldehyde emission. However, use of branchwood negatively affected the thickness swelling for 24 h immersion. Based on the findings of this study, it can be concluded that different parts of Ailanthus altissima (Mill.) Swingle can be used to manufacture particleboard panels. The branchwood and bark contents significantly affected the quality properties of the manufactured particleboards. The chemical and anatomical properties of the branchwood and bark were also found to be parameters influencing the quality properties of the particleboards. The results indicate that the contents of added bark and branchwood should not exceed 10% and 20% respectively.
Rocznik
Strony
187--196
Opis fizyczny
Bibliogr. 46 poz., tab.
Twórcy
  • Department of Industrial Engineering, Faculty of Engineering and Architecture, Sinop University, Sinop, Turkey
autor
  • Department of Forest Industry Engineering, Faculty of Forestry, Karadeniz Technical University, Trabzon, Turkey
  • Arsin Vocational School, Karadeniz Technical University, Trabzon, Turkey
Bibliografia
  • Almeida R.R., Menezzi C.H.S.D., Teixeira D.E. [2002]: Utilization of the coconut shell of babacu (Orbignya sp.) to produce cement-bonded particleboard. Bioresource Technology 85: 159-163
  • Alves L.S., Silva S.A.M., Azambuja M.S., Varanda L.D., Christóforo A.L., Lahr F.A.R. [2014]: Particleboard produced with sawmill waste of different wood species. Advanced Materials Research 884-885: 689-693
  • Ayrilmis N., Buyuksari U., Avci E., Koc E. [2009]: Utilization of pine (Pinus pinea L.) cone in manufacture of wood based composite. Forest Ecology and Management 259: 65-70
  • Ayrilmis N., Kwon J.H., Han T.H. [2012]: Effect of resin type and content on properties of composite particleboard made of a mixture of wood and rice husk. International Journal of Adhesion and Adhesives 38: 79-83
  • Ayrilmis N., Kwon J.H., Han T.H. [2017]: Effect of wood chip size on hemicelluloses extraction and technological properties of flakeboard. Turkish Journal of Agriculture and Forestry 41: 331-337
  • Baharaoglu M., Nemli G., Sari B., Birturk T., Bardak S. [2013]: Effects of anatomical and chemical properties of wood on the quality of particleboard. Composites: Part B 52: 282-285
  • Baskaran M., Hashim R., Sudesh K., Sulaiman O., Hiziroglu S., Arai T., Kosugid A. [2013]: Influence of steam treatment on the properties of particleboard made from oil palm trunk with addition of polyhydroxyalkanoates. Industrial Crops and Products 51: 334-341
  • Bektas I., Guler C., Kalaycioglu H., Mengeloglu F., Nacar M. [2005]: The manufacture of particleboards using sunflower stalks (Helianthus annuus) and poplar wood (Populus alba L.). Journal of Composite Materials 39 [5]: 467-473
  • Buyuksari U., Ayrilmis N., Avci E., Koc E. [2010]: Evaluation of the physical, mechanical properties and formaldehyde emission of particleboard manufactured from waste stone pine (Pinus pinea L.) cones. Bioresource Technology 101: 255-259
  • Collin P., Dumas Y. [2009]. Que savons-nous de l'ailante (Ailanthus altissima (Miller) Swingle)? What do we know about A. altissima? Revue forestiere francaise 61 [2]: 117-130
  • Copur Y., Guler C., Akgul M., Tascioglu C. [2007]: Some chemical properties of hazelnut husk and its suitability for particleboard production. Building Environment 42: 2568-2572CS1 maint: Uses authors parameter (link)
  • Guntekin E., Karakus B. [2008]: Feasibility of using eggplant (Solanum melongena) stalks in the production of experimental particleboard. Industrial Crops and Products 27: 354-358
  • Guntekin E., Uner B., Sahin H.T., Karakus B. [2008]: Pepper stalks (Capsicum annuum) as raw material for particleboard manufacturing. Journal of Applied Sciences 8 [12]: 2333-2336
  • Kang X., Kirui A., Widanage M.C.D., Mentink-Vigier F., Cosgrove D.J., Wang T. [2019]: Lignin-polysaccharide interactions in plant secondary cell walls revealed by solid-state NMR. Nature Communıcatıons 10: 347
  • Klímek P., Meinlschmidt P., Wimmer R, Plinke B, Schirp A. [2016]: Using sunflower (Helianthus annuus L.), topinambour (Helianthus tuberosus L.) and cup-plant (Silphium perfoliatum L.) stalks as alternative raw materials for particleboards. Industrial Crops and Products 92: 157-164
  • Kusumah S.S., Umemura K., Yoshioka K., Miyafuji H., Kanayama K. [2016]: Utilization of sweet sorghum bagasse and citric acid for manufacturing of particleboard I: Effects of pre-drying treatment and citric acid content on the board properties. Industrial Crops and Products 84: 34-42
  • Lertsutthiwong P., Khunthon S., Siralertmukul K., Noomun K., Chandrkrachang S. [2008]: New insulating particleboards prepared from mixture of solid wastes from tissue paper manufacturing and corn peel. Bioresource Technology 99: 4841-4845
  • Lykidis C., Grigoriou A., Barboutis L. [2014]: Utilisation of wood biomass residues from fruit tree branches, evergreen hardwood shrubs and Greek fir wood as raw materials for particleboard production. Part A. Mechanical properties. Wood Material Science and Engineering 9 [4]: 202-208
  • Maloney T.M. [1993]: Modern particleboard and dry-process fiberboard. Hal Leonard Corp, San Francisco, USA, 681
  • Martins E.H., Vilela A.P., Mendes R.F., Mendes L.M., Vaz L.E.V.S.B., Junior J.B.G. [2018]: Soybean waste in particleboard production. Ciencia e Agrotecnologia 42 [2]: 186-194
  • Melo R.R., Stangerlin D.M., Santana R.R.C., Pedrosa T.D. [2014]: Physical and mechanical properties of particleboard manufactured from wood, bamboo and rice husk. Materials Research 17 [3]: 682-686
  • Muhcu S., Nemli G., Ayrilmis N., Bardak S., Baharoglu M., Sari B., Gercek Z. [2015]: Effect of log position in European Larch (Larix decidua Mill.) tree on the technological properties of particleboard. Scandinavian Journal of Forest Research 30 [4]: 357-362
  • Nasser R.A. [2012]: Physical and mechanical properties of three-layer particleboard manufactured from the tree pruning of seven wood species. World Applied Sciences Journal 19 [5]: 741-753
  • Nemli G., Colakoglu G. [2005]: Effects of mimosa bark usage on some properties of particleboard. Turkish Journal of Agriculture and Forestry 29: 227-230
  • Nemli G., Kalaycıoglu H. [2001]: Suitability of date palm (Phoenix dactyliferia) branches for particleboard production. Holz Als Roh- und Werkstoff 59: 411-412
  • Nemli G., Yildiz S., Gezer E.D. [2008]: The potential for using the needle litter of Scotch pine (Pinus sylvestris L.) as a raw material for particleboard manufacturing. Bioresource Technology 99: 6054-6058
  • Okuda N., Sato M. [2008]: Bond durability of kenaf core binderless boards. II: outdoor exposure test. Journal of Wood Science 54: 36-44
  • Prasetya B. [1989]: The investigations on the barks of various tree species [Bachelor thesis on the afforestation of tropic and subtropic regions]. Gottingen: Forestry Faculty, Georg-August University of Gottingen
  • Sari B., Ayrilmis N., Nemli G., Baharoglu M., Gumuskaya M., Bardak S. [2012]: Effects of chemical composition of wood and resin type on properties of particleboard. Lignocellulose 1 [3]: 174-184
  • Sladonja B., Sušek M., Guillermic J. [2015]: Review on invasive tree of heaven (Ailanthus altissima (Mill.) Swingle) conflicting values: assessment of its ecosystem services and potential biological threat. Environmental Management 56 [4]: 1009-1034
  • Tisler V., Galla E., Pulkinen E. [1986]: Fractination of hot water extract from Picea abies Karst. bark. Holz Als Roh- und Werkstoff 44: 427-431
  • Wang D., Sun X.S. [2002]: Low density particleboard from wheat straw and corn pith. Industrial Crops and Products 15: 43-50
  • Wang S.Y., Yang T.H., Lin L.T., Lin C.J., Tsai M.J. [2007]: Properties of lowformaldehyde-emission particleboard made from recycled wood-waste chips sprayed with PMDI/PF resin. Building and Environment 42: 2472-2479
  • Wang S.Y., Yang T.H., Lin L.T., Tsai M.J. [2008]: Fire-retardant-treated low-formaldehydeemission particleboard made from recycled wood-waste. Bioresource Technology 99: 2072-2077
  • Wise E.L., Karz, H.L. [1962]: Cellulose and hemicelluloses. In: Earl Libby C., editor. Pulp and paper science and technology. New York: McGray Book Com; p. 55-73
  • List of standards
  • TAPPI T 204 cm-97:1997 Solvent extractives of wood and pulp. TAPPI test methods. Atlanta (GA): TAPPI Press
  • TAPPI T 207 om-88:1988 Water solubility of wood and pulp. TAPPI test methods, US Technical Association of Pulp and Paper Industry. Atlanta (GA): TAPPI Press
  • TAPPI T 11 M-45:1992 Sampling and preparing wood for analysis. TAPPI test methods. Atlanta (GA): TAPPI Press
  • TAPPI T 211 om-93:1993 Ash in wood, pulp, paper and paperboard. TAPPI test methods. Atlanta (GA): TAPPI Press
  • TAPPI T 212 om-98:1998 One percent sodium hydroxide solubility of wood and wood pulp. TAPPI test methods. Atlanta (GA): TAPPI Press
  • TAPPI T 222 om-02:2002 Acid-insoluble lignin in wood and pulp. TAPPI test methods. Atlanta (GA): TAPPI Press
  • EN 120-1:1993 Wood based panels, determination of formaldehyde content – extraction method called perforator method. Brussels: European Committee for Standardization
  • EN 310:1993 Wood based panels, determination of modulus of elasticity in bending and bending strength. Brussels: European Committee for Standardization
  • EN 312:2010 Particleboards – specifications. Brussels: European Committee for Standardization
  • EN 317:1993 Particleboard and fiberboards, determination of swelling in thickness after immersion in water. Brussels
  • EN 319:1993 Particleboards and fiberboards, determination of tensile strength perpendicular to the plane of the board. Brussels: European Committee for Standardization
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1292caba-c194-40a6-a767-2085f02f5914
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.