The performance of corn and cotton stalks for medium density fiberboard production

BioResources

Volumn 6, Issue 2, 2011, Pages 1147-1157

  Kargarfard, Abolfazl ^a   Jahan Latibari, Ahmad ^b  

^a RESEARCH INSTITUTE OF FORESTS AND RANGELANDS   (Iran)

^b ISLAMIC AZAD UNIVERSITY   (Iran)

Author keywords

Corn stalk; Cotton stalk; Medium density fiberboard; Press temperature; Strength

Indexed keywords

CORN STALK; COTTON STALK; MEDIUM DENSITY FIBERBOARD; PRESS TEMPERATURE; STRENGTH;

AGRICULTURAL WASTES; PRESSES (MACHINE TOOLS);

COTTON;

GOSSYPIUM HIRSUTUM; ZEA MAYS;

EID: 79953737361     PISSN: None     EISSN: 19302126     Source Type: Journal    
DOI: None     Document Type: Article

References (29)

1. Akgul, M., and Tozluoglu, A. (2008). "Utilizing peanut husk (Arachis hypogaea L.) in the manufacture of medium density fiberboards," Bioresource Technology 99, 5590-5594.
2. Ciannomea, E., Stefani, P. M., and Ruseckaite, R. A. (2010). "Medium-density fiberboard from rice husks and soybean protien concentrate-based adhesives," Bioresource Technology 101, 818-825.
3. Copur, Y., Gular, C., Tascioglu, C., and Tozluoglu, A. (2008). "Incorporation of hazelnut shell and husk in MDF production," Bioresource Technology 99, 7402-7406.
4. European Standard EN 317. (1996). "Particleboards and fiberboards, determination of swelling in thickness after immersion," European Standardization Committee, Brussels.
5. European Standard EN 319. (1996.) "Wood based panels, determination of tensile strength perpendicular to plane of the board," European Standardization Committee, Brussels.
6. European Standard EN 326-1 (1993). "Wood based panels, Sampling, cutting and inspection. Sampling and cutting of test pieces and expression of test results." European Standardization Committee, Brussels.
7. European Standars EN 310. (1996). "Wood based panels, determination of modulus of elasticity in bending and bending strength," European Standardization Committee, Brussels.
8. European Standard EN 622-6 (1997). " Requirement for dry process boards (MDF)." European Standardization Committee, Brussels.
9. Faraji, H. R. (1998). "Investigation on properties of medium density fiberboard (MDF) produced from bagasse," M. Sc. Thesis. Tarbiat Modares University, Faculty of Natural Resources and Marine Science.
10. Food and Agriculture Organization Statistics. (2010). Rome, Italy.
11. Groom, L. H., Matt, L., Shaler, S. M. and Pesacreta, T. (1988). "Effect of fiber surface and mechanical properties on the stiffness and strength of medium density fiberboard. Microfibril Angel in Wood," Proc. of the IAWA/UFRO International Workshop on the significance of Microfibril Angel to Wood Quality. Westport, New Zealand.
12. Halvarsson, S., Edlund, H. and Norgren, M. (2010). "Wheat straw as raw material for manufacture of mediun density fiberboard (MDF)," BioResources 5(2), 1215-1231.
13. Halvarsson, S., Edlund, H., and Norgren, M. (2008) "Properties of medium density fiberboard (MDF) based on wheat straw and melamine modified yrea formaldehyde (UMF) resin," Industrial Crops and Products 28, 37-46.
14. Han, G., Umemura, K., Zhang, M., Honda, T., and Kawai, S. (2001). "Develpoment of high-performance UF-bonded reed and wheat straw medium density fiberboard," J. Wood Sci. 47, 350-355.
15. Hilvillard, T., Cao, Q., and Laborie, M. P. G. (2007). "Improving water resistance of wheat straw-based medium density fiberboard bonded with aminoplastic and phenolic resins," BioResources 2(2), 148-156.
16. Jahan Latibari, A., and Roohnia, M. ( 2010). "Potential of utilization of the tresidues from poplar plantation for particleboard production in Iran," J. of Forestry Reseach 21(4), 503-508.
17. Johns, W. E., and Niazi, K. A. (1980). "Effect of pH and buffering capacity on the gelation time of urea formaldehyde resin," Wood and Fiber 12(4), 255-263.
18. Kargarfard, A., Hosseinzadeh, A., Nourbakhsh, A., and Hadjihasani, R. (2005). "Investigation on physical and mechanical properties of Medium Density Fiberboard (MDF) produced from poplar wood (P. nigra)," Pajouhesh-va-Sazandegi Journal., Iran. 58, 38-47.
19. Kargarfard, A., Nourbakhsh, A., and Hosseikhani, H. (2007). "Investigation on physical and mechanical properties of Medium Density Fiberboard (MDF) produced from Hornbeam wood," Pajouhesh-va-Sazandegi Journal, Iran. 74, 38-47.
20. Krzysik, M., Youngquist, A., Muehi, H., and Franca, F. (1999). "Medium density fiberboard plantation-grown Eucalyptus Saligna," International Conference on Effective Utilization of Plantation Timber; May 21-23; Forest Prod. Assoc., 156-160.
21. Lee, S., Shupe, T. F., and Hse, C.Y. (2006). "Mechanical and physical properties of agro-based fiberboard," Holz-als-Roh-und-Werkstoff 64, 74-79.
22. Pan, M., Zhou, D., Ding,T., and Zhau, X. (2010). "Water resistance and some mechnical properties of rice straw fiberboards affected by thermal modification," BioResources 5(2), 758-769.
23. Roffael, E., Dix, D., Khoo, K. C., Ong, C. L. and Lee, T. W. (1992). "Medium Density Fiberboard (MDF) from young poplar (P. trichocarpa) of different properties," Holzforschung 46, 163-170.
24. Schneider, T., Roffael, E., and Dix, B. (2000). "The effect of pulping process (TMP and CTMP) and pulping conditions on the physical and technological properties of medium density fiberboard (MDF)," Holzals-Roh-und-Werkstoff. 58, 1-2, 123-124.
25. Shi, J., Zhang, S., and Riedl, B. (2005). "Effect of juvenile wood on stregth properties and mimentional stability of black spruce medium density fiberboard panels," Holzforschung 59, 1-9.
26. Shupe, T. F., Hsu, C. Y., Choong, E. T., and Groom, L. H. (1999). "Effect of silvacultural practice and wood type on loblolly pine particleboard and medium density fiberboard properties," Holzforschung 53(2), 215-222.
27. TAPPI standard test methods. (1999). TAPPI Press, Atlanta, GA, USA.
28. Xing, C., Zhang, S. Y., Dend, J., Reidl, B., and Cloutier, A. (2006). "Medium-density fiberboard performance as affected by wood fiber acidity, bulk density, and size distribution," Wood Sci. Technol. 40, 637-646.
29. Ye, X. P., Julson, J., Kuo, M., Womac, A., and Myers, D. (2007). "Properties of medium density fiberboard made from renewable biomass," Bioresource Technology 98, 1077-1084.