Published Date
Materials & Design
March 2013, Vol.45:142–147, doi:10.1016/j.matdes.2012.08.054
The main objective in this study were to investigate the physical properties, mechanical properties and bonding qualities of oil palm stem (OPS) plywood pre-preg using low molecular weight phenol–formaldehyde (LmwPF). The properties evaluated were physical properties (resin uptake, weight percent gain), mechanical properties (bending strength) and bonding qualities (dry test, WPB test). The results showed that, the physical properties of OPS plywood were significant at resin concentration and veneer moisture content. Moreover, the mechanical properties and bonding performance of the pre-preg OPS plywood were influenced by the pressing time. The high grade OPS plywood with improved at least 227% MOR and 348% MOE compared to commercial OPS plywood, with greater in MOR (31%) and MOE (12%) higher compared than the commercial tropical mix light hardwood (MLHW) plywood. All the shear strength of pre-preg OPS plywood panel were achieved with their minimum requirements and satisfied all the specific testing based on the standard European Norms EN 314-1 and EN 314-2 for the interior and exterior application purposes. The output of this pilot scale study proved that high performance OPS plywood could produced through pre-preg enhancement method in the current plywood mills in which provides broader area of applications compared with conventional OPS plywood. For instant, the pre-preg OPS plywood which is suitable for structural application, concrete formwork, heavy duty interior structuring board, load bearing plywood, marine grade plywood, was obtained, thus consequently increases the price of OPS plywood panels.
Highlights
► The pre-preg method of oil palm stem veneer with LmwPF can produced plywood with ultimate mechanical quality. ► Both resin concentration and MC of veneer have significant effect on physical properties and mechanical properties. ► Hot-pressing time is directly proportional towards the bending properties and shear strength of the OPS plywood panel. ► The mechanical properties and shear properties showing best results were observed at MC 10–19% treated with 30% LmwPF.
Keywords
A. Natural materials
C. Surface treatments
E. Mechanical
For further details log on website :
http://www.sciencedirect.com/science/article/pii/S0261306912005936
Materials & Design
March 2013, Vol.45:142–147, doi:10.1016/j.matdes.2012.08.054
Received 15 June 2012. Accepted 20 August 2012. Available online 11 September 2012.
AbstractThe main objective in this study were to investigate the physical properties, mechanical properties and bonding qualities of oil palm stem (OPS) plywood pre-preg using low molecular weight phenol–formaldehyde (LmwPF). The properties evaluated were physical properties (resin uptake, weight percent gain), mechanical properties (bending strength) and bonding qualities (dry test, WPB test). The results showed that, the physical properties of OPS plywood were significant at resin concentration and veneer moisture content. Moreover, the mechanical properties and bonding performance of the pre-preg OPS plywood were influenced by the pressing time. The high grade OPS plywood with improved at least 227% MOR and 348% MOE compared to commercial OPS plywood, with greater in MOR (31%) and MOE (12%) higher compared than the commercial tropical mix light hardwood (MLHW) plywood. All the shear strength of pre-preg OPS plywood panel were achieved with their minimum requirements and satisfied all the specific testing based on the standard European Norms EN 314-1 and EN 314-2 for the interior and exterior application purposes. The output of this pilot scale study proved that high performance OPS plywood could produced through pre-preg enhancement method in the current plywood mills in which provides broader area of applications compared with conventional OPS plywood. For instant, the pre-preg OPS plywood which is suitable for structural application, concrete formwork, heavy duty interior structuring board, load bearing plywood, marine grade plywood, was obtained, thus consequently increases the price of OPS plywood panels.
Highlights
► The pre-preg method of oil palm stem veneer with LmwPF can produced plywood with ultimate mechanical quality. ► Both resin concentration and MC of veneer have significant effect on physical properties and mechanical properties. ► Hot-pressing time is directly proportional towards the bending properties and shear strength of the OPS plywood panel. ► The mechanical properties and shear properties showing best results were observed at MC 10–19% treated with 30% LmwPF.
Keywords
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Copyright © 2012 Elsevier Ltd. All rights reserved.
For further details log on website :
http://www.sciencedirect.com/science/article/pii/S0261306912005936
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