Volume 39 (2024-2025)
Volume 38 (2023-2024)
Volume 37 (2022-2023)
Volume 36 (2021-2022)
Volume 35 (2020-2021)
Volume 34 (2019-2020)
Volume 33 (2018-2019)
Volume 32 (2017-2018)
Volume 31 (2016-2017)
Volume 30 (2015-2016)
Volume 29 (2014-2015)
Volume 28 (2013-2014)
Volume 27 (2012-2013)
Volume 26 (2011-2012)
Volume 25 (2010-2011)
Volume 24 (2009-2010)
Volume 23 (2008-2009)
Volume 22 (2007-2008)
Volume 21 (2006-2007)
Volume 20 (2005-2006)
Volume 19 (2004-2005)
Volume 18 (2003-2004)
Volume 17 (2002-2003)
Volume 16 (2002-2003)
Volume 15 (2001-2002)
Volume 14 (2001-2002)
Volume 13 (2001)
Volume 12 (2000-2001)
Volume 11 (2000-2001)
Volume 10 (2000-2001)
Volume 9 (2000)
Volume 8 (1999)
Volume 7 (1999)
Volume 6 (1998)
Volume 5 (1998)
Volume 4 (1997)
Volume 3 (1997)
Volume 2 (1996)
Volume 1 (1995)
Composite wood products
Effect of mat moisture content and Cu nanoparticles on heat transfer and physical and mechanical properties of poplar particleboard

Mohammad Farajalah poor; Kazem Dosthosseini

Volume 27, Issue 2 , June 2012, , Pages 348-360

https://doi.org/10.22092/ijwpr.2012.117073

Abstract
  Effects of mat moisture content (MC) and Cu nanoparticles on heat transfer and physical and mechanical properties of poplar particleboard were investigated. Three levels of mat moisture content (9, 12 and 15%. based on oven dried wood particles) and two levels of Cu nanoparticles (0 and 15% based on ...  Read More

Composite wood products
Investigation on the Effect of UF resin polymerization variable on strength of Uf bonded Hornbeam particleboard

Ahmad Jahan latibari; Abdolrahman Hosseinzadeh; Taghi Tabarsa

Volume 1, Issue 148 , 1996, , Pages 1-53

https://doi.org/10.22092/ijwpr.1996.117435

Abstract
  In this investigation, the effect of mat moisture content, press temperature and time on polymerization reaction of urea-formaldehyde (UF)  resin and the strength of UF bonded hornbeam particleboard is studied. Variation of three variables is as followed: -mat moisture content; 10, 13 and 16% (Based ...  Read More