Document Type : Research Paper

Authors

1 MSc, Wood Industries Department, University of Tehran, Ira

2 Associate Professor, Wood Industries Department, University of Golestan, Iran.

3 MSc., Wood Industries Department, University of Tehran, Iran

Abstract

For this study 10 logs of Paullowina.furtunie from Shastkalateh forest of Gorgan in Iran were selected randomly. After that, 45 clear flat swan specimens prepared and dried to 5% moisture. Density of each log and thickness of specimens were measured. Three levels of compression percent (16%, 33% and 50%) and temperature (130°C, 145°C and 160°C) were the variables. The physical properties of specimens such as spring back, compression set and thickness swelling were calculated. Also, MOE, MOR and impact resistance of specimens were evaluated. In order to have accurate examination, microscopic images were taken. Results show that, with increasing in compression percent, the amounts of spring back and thickness swelling enhance. Densification with 16% compression, yields deformation in elastic region while 33% and 50% compression, causes more compression set. The more compression percent, the more mechanical strengths and the highest strength attained in 50% compression. The effect of temperature was insignificant mostly. Finally, the proper treatment for Paullownia densification, was 130°C and 50% compression. Microscopic images asserted the above results and illustrated that, the enhancing of densification above 50% compression is possible.

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 بادیگ، ژ و جین، ب.1376. مکانیک چوب و فرآورده­های مرکب آن، ترجمه قنبر ابراهیمی، انتشارات دانشگاه تهران،686 صفحه
سجودی، م. ا. و حسن عباسی، ن. 1366. پالونیا درخت شگفت انگیز، نشریه جنگل و مرتع، سال دوم، شماره پنجم. 23-19.
عدالت، ح.ر.1385. فشرده­سازی گونه پالونیا با استفاده از تیمار حرارتی و رطوبتی، پروژه کارشناسی، دانشگاه گلستان، دانشکده منابع طبیعی.    
Inoue, M.1993a.Steam or heat fixation of compression wood .Wood and Fiber Science Journal 25(3):224-235
Irving, G.m.1984.The glass transition of lignin and hemi cellulose and their measurement by different thermal analysis. TAPPI Journal 67(5):118-121
Kunesh, R.H.1961. The inelastic behaviour of wood: A new concept for improved panel forming process. Forest Products Journal 11(9):395-406
Leijten 1994. Properties of densified veneer. Proceeding of the Pacific Timber Engineering Conference Gold Coast Australia.
Macdonald, M.D.1951.Compression of Douglas-fir veneer during pressing.
Tabarsa, T.1995.The effects of transverse compression and press   temperature on wood response during hot – pressing, M.Sc Thesis, University of New Brunswick.
Tabarsa, T & Chui, Y.H. 1997.Effects of hot–pressing on properties of white spruce, Forest Products Journal, 47(5):71-76.