98 การศึกษาการทำแผ่นปาร์ติเกิลบอร์ดจากวัสดุเหลือใช้ทางการเกษตรของต้นสบู่ดำ

[1] Forest industrial organization of Thailand. 2003. Thailand imported wood more than 5000 million baht. Retrieved
February 15, 2014 from https://www.fio.co.th/
[2] Thanate P., Sakchai S. and Songkod J. 2013. Development of material for products design using grass with
agricultural waste. Journal of Industrial Education, Faculty of Industrial Education, King Mongkut’s Institute of
Technology Ladkrabang, Thailand. 12(2). (May-August 2013).P. 69-76.
[3] Rowell, R.M. 1996. Composites from agri- based resources. In: Falk, R.H. (Ed.).Use of Recycled Wood and Paper
in Building Applications Conference, Madison, Wi,p. 217-222.
[4] Youngqvist, J.A., Krzysik, A.M., English, B.W., Spelter, H.N., Chow, P. 1996. Agricultural fibres for use in building
components. p. 123-134.
[5] Rowell, R.M., Rowell, J. (Eds.). 1997.Paper and Composites from Agro-Based Resources. CRC Press, Inc.,
Madison, WI.
[6] Hague, J., McLauchlin, A., Quinney, R. 1998. Agri-materials for panel products: A technical assessment of their
viability. 32nd International Particleboard/Composite Materials, Symposium Proceedings. p. 151-159.
[7] Rowell, R.M. 2001. Performance driven composites from lignocellulosic resources. COMAT 2001 Mar Del Plata
Argentina 10 -12 December, International Conference on Sience and Technology of Composite Materials. p.
29-32.
[8] Sauter, S.L. 1996. Developing composites from wheat straw. In: Wolcott, M.P. (Ed.). 30th Washington-State-
University International Particleboard/Composite Materials Symposium, Pullman, Wa. p. 197-214.
[9] Eroglu, H., Istek, A. 2000. Medium Density Fibreboard (MDF) manufacturing from wheat straw (Triticum
Aestivum L.).In paper International (Apr-Jun).p. 11 -14.
[10] Han, G.P., Umemura, K., Zhang, M., Honda, T., Kawai, S. 2001b. Development of high- performance UF-bonded
reed and wheat straw medium-density fiberboard.Journal of Wood Science. 47. p. 350-355.
[11] Xing, C., Zhang, S.Y., Deng, J., Riedl, B.,Cloutier, A. 2006. Medium-density fiberboard performance as affected
by wood fiber acidity, bulk density, and size distribution.Wood Sci. Technol. 40. p. 637-646.
[12] Halvarsson, S., Edlund,H., Norgren,M. 2009. Manufacture of non-resin wheat straw fibreboards. Industrial Crops
and Products. 29. P. 437-445.
[13] Halvarsson, S., Edlund, H., Norgren, M.2010a. Manufacture of High-Performance Rice-Straw Fiberboards.
Industrial & Engineering Chemistry Research.49. p. 1428- 1435.
[14] Halvarsson, S., Edlund, H., Norgren,M. 2010b. Wheat-straw as a raw material for manufacture of straw MDF.
Bioresources. 5. p. 1215-1231.
[15] Kobilke, H. 1989.UntersuchungenzurBestandesbegründun g von Purgiernuß (JatrophacurcasL.).Diploma thesis.
University Hohenheim, Stuttgart.
[16] Heller, J. 1992. Untersuchungenübergenoty pischeEigenschaften und Vermehrungs- und Anbauverfahrenbei der
Purgiernuß (JatrophacurcasL.) [Studies on genotypic characteristics and propagation and cultivation methods for
physic nuts (JatrophacurcasL.)]. Dr. Kovac, Hamburg.
[17] Münch, E. 1986. Die Purgiernuß (JatrophacurcasL.) - Botanik, Ökologie, Anbau. Diploma thesis. University
Hohenheim, Stuttgart.
[18] Wiehr, E. 1930. BeiträgezurKenntnis der Anatomie der ichtigsten EuphorbiaceensamenunterbesondererBer
ücksichtigungihrerErkennungsmerkmale in Futtermitteln. Ph.D. Dissertation.Mathematical-Natural Scientific
Faculty, University Hamburg.
[19] Droit, S. 1932. Recherchessur la graineetl’huile de PurghèreouPignond’Inde (JatrophacurcasL.). Dissertation.
Université de Paris, Faculté de Pharmacie, Paris.
[20] Gupta, R.C. 1985. Pharmacognostic studies on ‘Dravanti’. Part I JatrophacurcasLinn. Proc. Indian Acad. Sci.
(Plant Sci.).94(1). p. 65-82.