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
Investigation on possibility of making a Nano composite consist of Pebax and Nano cellulose

Hassan Ziaei Tabari; Habibollah Khademieslam; Behzad Bazyar; Amir Homan Hemmasi

Volume 31, SPRING 1 , March 2016, , Pages 92-104

https://doi.org/10.22092/ijwpr.2015.105606

Abstract
  A new kind of thermoplastic elastomer nano composite reinforced with nano cellulose fibers is reported. The first aim of this investigation was to study the interaction and dispersion of nano cellulose fiber into Pebax matrix. This copolymer is Polyether – b – Amide thermoplastic elastomer ...  Read More

Investigation on the effect of nanoclay on physical and tensile properties of nanocomposite made from reed residues

Hassan Ziaei Tabari; Amir Nourbakhsh; Habibollah Khademi Eslam; behzad baziyar

Volume 27, Issue 2 , June 2012, , Pages 202-211

https://doi.org/10.22092/ijwpr.2012.117061

Abstract
  The aim of this study was to investigate the potential of using reed flour and different contents of montmorillonite (nanoclay) nanoparticles on the physical and tensile properties of polypropylener/reed flour/nano clay composite. The amount of coupling agent and reed flour was constant at 5% and 40%, ...  Read More