为什么要选择高性能空心玻璃微珠?
空心玻璃微珠的填充量一般在5%-20%之间。
The filling content of hollow glass bead generally is between 5% -20%.
本文介绍了空心玻璃微珠的基本性能及其在复合材料中的应用。
This paper introduces the basic properties of hollow glass microspheres and their application in composites.
研究了在空心玻璃微珠表面化学镀镍磷合金的无钯活化新工艺。
By this activation process, electroless nickel on cenospheres surface was carried out.
结果表明,硅烷偶联剂改善了空心玻璃微珠与树脂基体的相容性。
The results showed that the compatibility of hollow glass bead and resin was improved by adding silane coupling agent.
研究了空心玻璃微珠增强聚四氟乙烯复合材料的拉伸强度的变化。
The changes of the tensile strength of the PTFE composites reinforced by glass microballoon were studied.
因此添加不同比例的空心玻璃微珠就能够得到你所想要的理想密度。
Hence the desired ideal density can be obtained by adding appropriate proportions of hollow glass microspheres.
空心玻璃微珠的滚动性能好,可提高机械钻速,从而显著提高钻井效率。
Hollow glass microspheres has a good rolling performance, and it can increase the drilling rate, and Significantly improve the drilling efficiency.
研究了加入空心玻璃微珠后,硬质聚氨酯泡沫塑料的泡孔结构、压缩性能以及阻尼性能。
The cell structure, compression and damping properties of rigid polyurethane foam filled with hollow glass bead were studied.
制备了空心玻璃微珠(HGM )填充环氧树脂复合材料,对材料进行了单轴静态压缩实验。
Uniaxial static compression behavior of composites of epoxy resin (E-51) and hollow glass microspheres (HGM) was investigated.
此外,在已有的宏细观力学实验基础上,进一步分析了空心玻璃微珠对复合泡沫塑料的增强机理。
In addition, based on the macroscopic and microscopic experiments, the reinforced mechanism of hollow glass micro-spheres for polyurethane syntactic foams is discussed also.
空心玻璃微珠极易与树脂混合,一般建议在较慢的搅拌速度下在混合的最后阶段加入空心玻璃微珠。
It can be easily mixed with resin, and is proposed to be added at the final stages of mixing with a slower mixing speed.
空心玻璃微珠极易与树脂混合,一般建议在较慢的搅拌速度下在混合的最后阶段加入空心玻璃微珠。
It can be easily mixed with resin, and is proposed to be added at the final stages of mixing with a slower mixing speed.
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