Effects of Nano-Wollastonite on Screw Withdrawal Capacity of Oriented Strand Lumber

H. R. Taghiyari, Vahid Hassani, S. Maleki, C. Eckelman
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引用次数: 2

Abstract

The effect of changes of urea-formaldehyde resin content and nanowollastonite content on the withdrawal capacities of sheet metal screws and medium density fiberboard screws from the edge, face, and end surfaces of oriented strand lumber were investigated. The panels were produced with two urea-formaldehyde resin contents (8% and 10%), and two nano-wollastonite contents (10% and 20%). Specimens were prepared and tested according to ASTM standard D 1761-88. Sheet metal screws had a higher withdrawal capacity than medium density fiberboard screws. Withdrawal capacity in the face and edge directions were significantly higher than in the end direction. Changes in urea-formaldehyde resin content had no effect on screw withdrawal capacity in any of the three directions, implying that compaction in the composite panels had higher impact on screw withdrawal strength in comparison to the increase in resincontent from 8% to 10%. However, addition of NW resulted in a decrease in withdrawal capacity values at both resin levels in all directions.
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纳米硅灰石对定向长条木材螺旋提取能力的影响
研究了脲醛树脂含量和纳米硅灰石含量的变化对金属板螺钉和中密度纤维板螺钉从定向线材的边、面和端面提取能力的影响。采用两种脲醛树脂含量(8%和10%)和两种纳米硅灰石含量(10%和20%)制备板。根据ASTM标准D 1761-88制备和测试样品。金属板螺钉的抽拔能力高于中密度纤维板螺钉。端面和边缘方向的回采能力显著高于端面方向。在三个方向上,脲醛树脂含量的变化对螺杆的抽拔能力都没有影响,这意味着与树脂含量从8%增加到10%相比,复合板中的压实对螺杆抽拔强度的影响更大。然而,NW的添加导致两个树脂水平各方向的提取能力值降低。
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