Preparation of nano zinc borate and investigation of flame-retardancy of ternary combination nano zinc borate/red phosphorus/expandable graphite on HDPE

Thi Hanh Nguyen, Thi Nhung Hac, Van Toan Hoang, Nhat Thuy Giang Le, Mai Ha Hoang, Van Tuyen Nguyen
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Abstract

Nano zinc borates were successfully synthesised from aqueous solutions of zinc sulfate, boric acid, and sodium hydroxide via the precipitation method. The effects of pH, temperature, and surfactants on the structure and morphologies of nano zinc borates were investigated. The nano zinc borates obtained at the pH of 7 to 8 were well-crystallised monophase Zn[B3O4(OH)3]. The morphologies of nano zinc borates were highly impacted by the reaction temperature and the surfactants. At the range of temperatures from 70 to 80oC, the nano zinc borates were nanoplates of 40-50 nm in thickness. The nano zinc borates grew out of the surface to form nanorods at 90oC and nanowhiskers at 100oC. The nano zinc borates modified with surfactants tended to form larger and thinner plate-like nanoparticles. In the presence of Tween 80, petal-like nano zinc borates were achieved. The petal-like nano zinc borates showed good flame retardant synergistic effects with red phosphorus and expandable graphite on high-density polyethylene matrix. Additionally, the nano zinc borates nanopetals significantly improved the mechanical properties of red phosphorus/expandable graphite/high-density polyethylene composites.
纳米硼酸锌的制备及纳米硼酸锌/红磷/可膨胀石墨三元组合在高密度聚乙烯上的阻燃性能研究
通过沉淀法从硫酸锌、硼酸和氢氧化钠的水溶液中成功合成了纳米硼酸锌。研究了 pH 值、温度和表面活性剂对纳米硼酸锌结构和形态的影响。在 pH 值为 7 至 8 时得到的纳米硼酸锌为结晶良好的单相 Zn[B3O4(OH)3]。纳米硼酸锌的形态受反应温度和表面活性剂的影响很大。在 70 至 80 摄氏度的温度范围内,纳米硼酸锌为厚度为 40 至 50 纳米的纳米板。在 90 摄氏度时,纳米硼酸锌从表面长出形成纳米棒,在 100 摄氏度时形成纳米须。用表面活性剂修饰的纳米硼酸锌往往会形成更大更薄的板状纳米颗粒。在吐温 80 的存在下,纳米硼酸锌形成了花瓣状。花瓣状纳米硼酸锌与红磷和可膨胀石墨在高密度聚乙烯基体上显示出良好的阻燃协同效应。此外,纳米硼酸锌还能显著改善红磷/可膨胀石墨/高密度聚乙烯复合材料的机械性能。
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