Physico-Mechanical Properties of Cement-Bonded Boards Produced from Mixture of Corn Cob Particles and Gmelina arborea Sawdust |
Adelusi, Emmanuel Adekanye
(Department of Wood and Paper Technology, Federal College of Forestry)
Olaoye, Kayode Oladayo (Department of Wood and Paper Technology, Federal College of Forestry) Adelusi, Felicia Temitope (Department of Agricultural Extension and Management, Federal College of Forestry) Adedokun, Samuel Ayotunde (Department of Basics Science and General Studies, Federal College of Forestry) |
1 | Sotannde OA, Oluwadare AO, Ogedoh O, Adeogun PF. 2012. Evaluation of cement- bonded particle board produced from Afzelia africana wood residues. J Eng Sci Technol 7: 732-743. |
2 | Zubairu IK. 1989. The suitability of maize cobs for the production of particle board. PhD thesis. Ahmadu Bello University, Zaria, Nigeria. (in English) |
3 | Adelusi EA, Adedokun SA, Adelusi FT. 2019. Dimensional Stability of Cement Bonded Boards Produced from Thaumatococus danielli Stalk. J Mater Sci Res Rev 4: 1-7. |
4 | Adelusi EA, Olaoye KO, Olaoye FG. 2019. Strength and Dimensional Stability of Cement-bonded Boards Manufactured from Mixture of Ceiba pentandra and Gmelina arborea Sawdust. J Eng Res Rep 8: 1-10. |
5 | Ajayi B. 2006. Properties of maize-stalk-based cement-bonded composites. For Prod J 56: 51-55. |
6 | Amenaghawon NA, Osayuki-Aguebor W. Okieimen CO. 2016. Production of Particle Boards from Corn cobs and Cassava stalks: Optimisation of Mechanical Properties Using Response Surface Methodology. J Mater Environ Sci 7: 1236-1244. |
7 | Babatunde A, Olufemi B, Fuwape J, Badejo S. 2008. Effect of wood density on bending strength and dimensional movement of flakeboards from Gmelina arborea Leucaena leucocephala. In: 11th International Inorganic-Bonded Fiber Composites Conference; Madrid, Spain; Nov 5-7, 2008. pp 230-236. |
8 | British Standards Institution. 1980. Methods of Test for Water for Making Concrete (Including Notes on the Suitability of the Water). British Standards Institution, London. |
9 | Badejo SOO. 1987. An investigation on the influence of cement binder content on properties of cement-bonded particle board from four tropical hardwoods. Malays For 50: 107-120. |
10 | Badejo SOO. 1989. Influences of pre-treatment temperature and additive concentration on the properties of cement-bonded particleboard from plantation-grown tropical hardwoods. Trop Sci 29: 285-296. |
11 | British Standards Institution. 1996. Specification for Portland Cement. British Standards Institution, London. |
12 | Del Menezzi CHS, de Castro VG, de Souza MR. 2007. Production and Properties of a Medium Density Wood-Cement Boards Produced with Oriented Strands and Silica Fume. Maderas Cienc Tecnol 9: 105-115. |
13 | CEN. 1996. Cement-Bonded Particleboards-Specifications- Part 2: Requirements for OPC Bonded Particleboards for Use in Dry, Humid and Exterior Conditions. Swedish Institute for Standards, Stockholm. |
14 | Chu TV, Phuong LX. 2015. Effect of Rice Straw Steaming Time and Mixing Ratio between Acacia mangium Willd Wood and Steamed Rice Straw on the Properties of the Mixed Particleboard. J For Environ Sci 31: 119-125. |
15 | Danladi A, Patrick IO. 2013. Mechanical Properties of Particle Boards from Maize Cob and Urea-Formaldehyde Resin. Int J Mater Metall Eng 7: 751-753. |
16 | Deppe HJ, Ernst K. 1986. Reducing Particleboard Pressing Time. An Exploratory Study. US Dept. of Agriculture Forest Service, Madison, WI, pp 3-14. |
17 | Erakhrumen AA, Areghan SE, Ogunleye MB, Larinde SL, Odeyale OO. 2008. Selected physico-mechanical properties of cement-bonded particleboard made from pine (Pinus caribaea M.) sawdust-coir (Cocos nucifera L.) mixture. Sci Res Essays 3: 197-203. |
18 | Ogunbode EB, Fabunmi FO, Ibrahim SM, Jimoh IO, Idowu OO. 2013. Management of Sawmill Wastes in Nigeria: Case Study of Minna, Niger State. Greener J Sci Eng Technol Res 3: 34-41. DOI |
19 | Falemara BC, Ajayi B. 2018. Effects of additive levels on dimensional stability and strength of cement composite before and after accelerated aging procedure. In: 16th International Inorganic-Bonded Fiber Composite Conference (IIBCC 2018); Cape Town, South Africa; Oct 23-26, 2018. pp 213-224. |
20 | Fernandez Bertos M, Simons SJ, Hills CD, Carey PJ. 2004. A review of accelerated carbonation technology in the treatment of cement-based materials and sequestration of CO2. J Hazard Mater 112: 193-205. DOI |
21 | Ogunwusi AA. 2014. Wood Waste Generation in the Forest Industry in Nigeria and Prospects for Its Industrial Utilization. Civ Environ Res 6: 62-69. |
22 | Olaoye KO, Abiola JK, Adelusi EA, Adebawo FG. 2019. Selected Physical and Mechanical Properties of Medium Density Fibreboard Composite Produced from Waste Paper and Sawdust. J Mater Sci Res Rev 4: 1-10. |
23 | Oluoti K, Megwai G, Pettersson A, Richards T. 2014. Nigerian Wood Waste: A Dependable and Renewable Fuel Option for Power Production. World J Eng Technol 2: 234-248. DOI |
24 | Owoyemi JM, Ajayi B, Oyeleye IO. 2018. Effect of production variables on the properties of cement bonded flake board from Polyalthia longifolia (Sonn.)Thw. Wood. In: 16th International Inorganic-Bonded Fiber Composite Conference (IIBCC 2018); Cape Town, South Africa; Oct 23-26, 2018. pp 203-212. |
25 | Klyosov AA. 2007. Wood-Plastic Composites. Wiley-Interscience, Hoboken, NJ, 729 pp. |
26 | Frybort S, Mauritz R, Teischinger A, Muller U. 2008. Cement Bonded Composites- A Mechanical Review. Bioresources 3: 602-626. |
27 | Gardner DJ, Tascioglu C, Walinder ME. 2003. Wood composite protection. In: Wood Deterioration and Preservation: Advances in Our Changing World (Goodell B, Nicholas DD, Schultz TP, eds). American Chemical Society, Washington, pp 399-419. |
28 | Ghaffar SH, Burman M, Braimah N. 2020. Pathways to circular construction: an integrated management of construction and demolition waste for resource recovery. J Clean Prod 244: 118710. DOI |
29 | Malik KR. 2015. Use of waste plastic in concrete mixture as aggregate replacement. Int J Eng Educ Technol 3: 1-8. |
30 | Marinho NP, Nascimento EM, Nisgoski S, de Domenico Valarelli I. 2013. Some Physical and Mechanical Properties of Medium-Density Fiberboard Made from Giant Bamboo. Mater Res 16: 1387-1392. DOI |
31 | Marteinsson B, Gudmundsson E. 2018. Cement Bonded Particle Boards with Different Types of Natural Fibres- Using Carbon Dioxide Injection for Increased Initial Bonding. Open J Compos Mater 8: 28-42. DOI |
32 | Mrema AL. 2006. Cement bonded wood wool boards from podocarpus spp. for low cost housing. J Civ Eng Res Pract 3: 51-64. |
33 | Rana MN, Islam MN, Nath SK, Das AK, Ashaduzzaman M, Shams MI. 2019. Properties of low-density cement-bonded composite panels manufactured from polystyrene and jute stick particles. J Wood Sci 65: 1-10. DOI |
34 | Panshin AJ, De Zeeuw C. 1980. Textbook of Wood Technology. 4th ed. McGraw-Hill, New York, NY, 704 pp. |
35 | Papadopoulos A, Traboulay E, Hill C. 2002. One layer experimental particleboard from coconut chips- (Cocos nucifera L.). Eur J Wood Wood Prod 60: 394-396. DOI |
36 | Ramirez-Coretti A, Eckelman CA, Wolfe RW. 1998. Inorganic-bonded composite wood panel systems for low-cost housing: a Central American perspective. For Prod J 48: 62-68. |
37 | Savastano H Jr, Warden PG, Coutts RSP. 2003. Potential of alternative fibre cements as building materials for developing areas. Cem Concr Compos 25: 585-592. DOI |