Production and Characterization of Particle Board Laminated with Wall-paper and Wood Veneer

Bartin Orman Fakultesi Dergisi Pub Date : 2023-05-15 DOI:10.24011/barofd.1239433

Orhan Kelleci, Süheyla Esin Köksal, Gül Teki̇ngündüz

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Abstract

In this study, the lamination process on the particle board (PB) surface was carried out during the board production and the possibilities of saving wood raw material, time, labor and cost by producing the board without the need for cooling, sanding and a separate lamination process were investigated. For this purpose, ready-to-use boards were obtained by covering the board surfaces with wallpaper (WP) and beech veneer (BV) with a single hot press process. The boards were obtained by placing wallpaper and beech veneer on the surface of the chipboard draft prepared in a single layer with a thickness of 16 mm and pressing. No fine wood chips were used on the surface. 1mm thickness BV and 300 gr/m2 WP were used to cover the PB surfaces. Urea formaldehyde (UF) was treated the surface of 2 % humid wood chips (CL) according to its dry weight by 10 % and ammonium sulfate (AS) with 4 % according to solid UF. Concentration of UF and AS were 65 % and 30 % before the treated the wood chips. Particle boards were produced at 650 kg/m3, at 190°C for 10 minute, by applying 30 kg/cm2 pressure on PB. Density, water absorption (WA), thickness swelling (TS), modulus of rupture and elasticity (MOR and MOE), internal bond (IB), density profile and formaldehyde emission were determined according to the relevant TSE standards. According to the obtained results, IB strength of the coated PBs were lower than the control PB. But MOR and MOE strength were high then control samples due to BV and WP. Formaldehyde emissions of covered PBs were less than control samples. As a result, it was concluded that it is possible to produce the PB by pressing at the same time with coating materials. However, it is not currently suitable for furniture production due to its low IB strength, but it can be used as construction building material such as prefabricated house wall.

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与墙纸和木饰面复合的刨花板的生产和性能

在本研究中，刨花板(PB)表面的层压工艺在板材生产过程中进行，并通过不需要冷却，打磨和单独的层压工艺来生产板材，从而节省木材原材料，时间，人工和成本的可能性进行了研究。为此，通过单一热压工艺在纸板表面覆盖墙纸(WP)和山毛榉饰面(BV)，获得即用板。通过将墙纸和山毛榉饰面铺在厚度为16毫米的单层刨花板草稿表面并压制而获得板材。表面没有使用细木屑。用厚度为1mm的BV和300 gr/m2的WP覆盖PB表面。对湿木屑(CL)表面按干重10%用脲醛(UF)处理，对固体木屑表面按4%用硫酸铵(AS)处理。木屑处理前UF和AS的浓度分别为65%和30%。在650 kg/m3下，在190°C下，通过对PB施加30 kg/cm2的压力，生产刨花板10分钟。密度、吸水率(WA)、厚度膨胀量(TS)、断裂弹性模量(MOR和MOE)、内键量(IB)、密度剖面和甲醛释放量按照TSE相关标准进行测定。结果表明，包覆后的PBs的IB强度低于对照PB。但由于BV和WP的作用，MOR和MOE强度高于对照样品。覆盖PBs的甲醛释放量低于对照样品。研究结果表明，采用涂覆材料同时压制法制备PB是可行的。但由于其IB强度较低，目前不适合用于家具生产，但可以作为预制房屋墙体等建筑建材。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bartin Orman Fakultesi Dergisi

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12 weeks