Preparation of novel non-halogen flame-retardant papers.

Q4 Agricultural and Biological Sciences

Taiwan Journal of Forest Science Pub Date : 2011-03-01 DOI:10.7075/TJFS.201103.0087

R. Yeh, Yi-ting Yang, Y. Perng

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引用次数: 1

Abstract

Halogen-containing flame-retardant paper products have both good efficacies and cost competitiveness. However, facing increasingly stringent environmental protection and safety requirements, these products could become a liability in service. Developing effective and cost-competitive non-halogen flame retardant paper products has thus become a goal of product development by the paper industry. In this study, we investigated the application of certain papermaking functional additives, particularly minerals, to develop fire-resistant agents or flame-retardant papers that are not liable to become soggy when exposed to moisture in the atmosphere. Five inorganic pigments (calcium carbonate, kaolin clay, magnesium hydroxide, aluminum hydroxide, and sericite mica) and a swelling-type flame-retardant (a phosphor-nitrogen (P-N) organic compound) were examined. We applied the minerals either by internal addition to a pulp furnish and formation into base sheets, or by surface coating applied to commercial copy paper substrates, and finally by adding the minerals at different proportions internally to the pulp furnish and then surface coating with the P-N compound. The prepared sheets were tested for their flame-retardation performance. Service environment-simulated treatments were also conducted on the papers to observe changes in their mechanical properties, so as to find the optimal flame-retarding filler ratios and coating amount formulations. The economic efficiencies of the various formulations were also analyzed to serve as a database for research and industrial reference. In total, 5 blended formulas allowed the papers to attain a class Ⅰ flame-retardation rating. After the degradation test and economic analysis, we deemed that aluminum hydroxide and magnesium hydroxide were too expensive, and were liable to lose their fire-resistance after degradation. Sericite mica-treated paper showed lower strength losses after degradation treatment; however, the fire rating decreased to class Ⅲ. Calcium carbonate- and kaolin clay-based papers had reduced fire ratings to class Ⅱ after degradation.

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新型无卤阻燃纸的制备。

含卤阻燃纸制品既具有良好的阻燃效果，又具有成本竞争力。然而，面对日益严格的环保和安全要求，这些产品在使用中可能成为一种负担。因此，开发有效且具有成本竞争力的无卤阻燃纸产品已成为造纸工业产品开发的目标。在这项研究中，我们研究了某些造纸功能添加剂的应用，特别是矿物质，以开发阻燃剂或阻燃纸，当暴露在大气中的水分时不易变湿。研究了五种无机颜料(碳酸钙、高岭土、氢氧化镁、氢氧化铝和绢云母)和一种膨胀型阻燃剂(磷氮有机化合物)。我们通过将矿物内部添加到纸浆原料中并形成基片，或将其表面涂层应用于商业复印纸基材，最后将不同比例的矿物内部添加到纸浆原料中，然后表面涂层P-N化合物。对所制备的板材进行了阻燃性能测试。通过模拟使用环境的处理，观察其力学性能的变化，从而找到最佳的阻燃填料配比和涂覆量配方。还分析了各种配方的经济效率，作为研究和工业参考的数据库。总共有5种混合配方使纸张达到Ⅰ级阻燃等级。经过降解试验和经济分析，我们认为氢氧化铝和氢氧化镁过于昂贵，降解后容易失去耐火性能。绢云母纸经降解处理后强度损失较小;然而，防火等级下降到Ⅲ级。碳酸钙和高岭土基纸在降解后的防火等级降至Ⅱ级。

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来源期刊

Taiwan Journal of Forest Science Agricultural and Biological Sciences-Forestry

CiteScore

0.20

自引率

0.00%

发文量

期刊介绍： The Taiwan Journal of Forest Science is an academic publication that welcomes contributions from around the world. The journal covers all aspects of forest research, both basic and applied, including Forest Biology and Ecology (tree breeding, silviculture, soils, etc.), Forest Management (watershed management, forest pests and diseases, forest fire, wildlife, recreation, etc.), Biotechnology, and Wood Science. Manuscripts acceptable to the journal include (1) research papers, (2) research notes, (3) review articles, and (4) monographs. A research note differs from a research paper in its scope which is less-comprehensive, yet it contains important information. In other words, a research note offers an innovative perspective or new discovery which is worthy of early disclosure.