得出了制备纳米氢氧化镁的最佳条件。
The best condition of preparation for nanometer magnesium hydroxide are gotten.
采用撞击流反应结晶方法,以青海盐湖水氯镁石为原料,制备了高纯纳米氢氧化镁。
High purity nano-sized magnesium hydroxide was prepared by impinging stream reaction crystallization method using bischofite (from Chaerhan salt lake, in Qinghai Province) as raw material.
通过均匀沉淀法制备了羟基锡酸锌包覆纳米氢氧化镁并将其应用到聚氯乙烯(PVC)中。
Zinc hydroxystannate coated nano-Mg(OH)2 was synthesized through homogeneous precipitation method and was applied to PVC.
研究了纳米氢氧化镁粉体对该体系阻燃性能和机械力学性能的影响,并与微米氢氧化镁粉体进行了比较。
The influence of NSMH on flame retardancy and mechanical properties of flexible PVC was studied and compared with micron-sized magnesium hydroxide.
在不同改性剂中,以硬脂酸锌的改性效果较好; 改性纳米氢氧化镁的阻燃性能和机械力学性能要优于微米级氢氧化镁;
The experimental results indicate that modified NSMH disperses well in flexible PVC, and zinc stearate has a better modification effect than other modifiers.
对疏松型纳米氢氧化镁(LN - MH)阻燃剂进行了扫描电子显微镜分析、X -射线衍射分析、元素分析、傅立叶变换红外光谱和粒径测定。
SEM, XRD, elementary analysis and FTIR were adopted to characterize the loose nano magnesium hydroxide (LN-MH), followed by the measurement of particle diameter.
研究成果为纳米级氢氧化镁下一步的深入研究打下了良好基础。
Above research results have established good foundation for next research of nanometer magnesium hydroxide.
研究成果为纳米级氢氧化镁下一步的深入研究打下了良好的基础。
Above research results have established good foundation for next in depth research of nanometer magnesium hydroxide.
氢氧化镁和纳米合成水滑石配合使用,可使复合材料的阻燃效果增强并能大大减少负面影响。
When the Mg(OH)2 used with synthetic nano HT, the flame retard effect is enhanced, and decreasing significantly the negative effects.
以菱镁矿为原料,经煅烧、盐酸酸化后与氢氧化钠反应合成了纳米级、片状、粒度均匀的氢氧化镁。
Magnesium hydroxide that was of nanometer level and flake shape and had uniform particle size was synthesized by calcination and hydrochloric acid-acidification and with magnesite as raw material.
以菱镁矿为原料,经煅烧、盐酸酸化后与氢氧化钠反应合成了纳米级、片状、粒度均匀的氢氧化镁。
Magnesium hydroxide that was of nanometer level and flake shape and had uniform particle size was synthesized by calcination and hydrochloric acid-acidification and with magnesite as raw material.
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