Flake Drying Temperature Affects Mat Properties during Pressing
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C. J. Martino
Summary
The contact angle of water on wood rises sharply as the wood approaches dryness. The general shape of the rise can be reproduced through thermodynamic calculations that consider the presence of extractives on the surface. SEM work confirms that extractives move progressively to the surface with increasing drying temperature. Other factors such as pore closure also contribute to surface hydrophobicity. The temperature profile within a stack of flakes during accelerated pressing shows a break at 100°C when flakes dried at high temperature are processed. Moisture is known to be driven from the outer layers of the stack to the core during early pressing. If the flake surface is hydrophobic then this moisture would film on the surface rather than penetrate into the flake. Subsequent evaporation of the moisture would lead to high pressure. Hence, flakes dried at high temperature should be more prone to delamination. High-temperature drying also promotes VOC emissions and there should be operational and environmental benefits to drying at lower temperature.
Copyright © 2002 by Walter de Gruyter GmbH & Co. KG
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Articles in the same Issue
- Effect of Growth Rate on Fibre Characteristics in Norway Spruce (Picea abies (L.) Karst.)
- Techniques for Measuring Growth Stress on the Xylem Surface Using Strain and Dial Gauges
- Use of Soft Rot Cavities to Determine Microfibril Angles in Wood; Advantages, Disadvantages and Possibilities
- Surface Roughness and Color Change of Copper-Amine Treated Red Maple (Acer rubrum) Exposed to Artificial Ultraviolet Light
- Differences in Resin Acid Concentration between Brown-Rot Resistant and Susceptible Scots Pine Heartwood
- Antioxidant Activity of Abietane-Type Diterpenes from Heartwood of Taiwania cryptomerioides Hayata
- Hydrothermolysis of Flavonoids in Relation to Steaming of Japanese Larch Wood
- Impact of Pulping Conditions on FORMACELL Aspen Lignin: Investigation of Methoxyl and Ester Groups, Carbohydrates, Molar Mass and Glass Transition Temperatures
- Ethanol-Enhanced Alkaline Pulping of Arundo donax L. Reed: Influence of Solvent on Pulp Yield and Quality
- Reflectance FTIR Microspectroscopy for Studying Effect of Xylan Removal on Unbleached and Bleached Birch Kraft Pulps
- Structure of Thermally Modified Wood Studied by Liquid State NMR Measurements
- Detection on Incipient Fungal Attack in Wood Using Magnetic Resonance Parameter Mapping Wood Studied by Liquid State NMR Measurements
- Wood Density Determination by X- and Gamma-Ray Tomography
- The Influence of Wood Specimen Surface Coating on Moisture Movement during Drying
- Study of the System Wood – Coating Material. Part 2.Wood – Solid Coating Material
- Flake Drying Temperature Affects Mat Properties during Pressing
