为什么要选择高性能空心玻璃微珠?
空心微珠保温冒口是一项先进的铸造工艺。
The hollow fine particle insulating riser is an advanced founding technique.
制备出一种空心微珠增强聚氨酯泡沫复合材料。
One kind of the hollow bead reinforced polyurethane foam composite was prepared.
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%.
利用空心微珠球型的特性,填充改性玻纤增强尼龙6。
The glass fiber reinforced nylon 6 was modificated by the filling of the hollow microsphere.
本文介绍核废料处理用玻璃微珠的生产制造方法和设备。
This paper introduces the method and equipment for making glass microspheres used for nuclear waste disposal.
玻璃微珠玻化质的表面更抗化学腐蚀,对光有反射作用。
The vitrified surface of glass microspheres can realize the chemical corrosion resistant, and reflex action on light.
采用高分子凝胶法在玻璃微珠表面制备了镍铁氧体包覆层。
Nickel ferrite coatings were prepared on the surface of glass beads using the polyacrylamide gel method.
本文介绍了一种以聚醋酸乙烯为成膜物的彩色微珠喷涂涂料。
In this article, a kind of colour micro-pearl paint with polyvlnylacetate as membrane former has been presented.
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.
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.
对于决心不再使用含微珠产品的人们来说,也有一些安全的处理方法。
There are still safe ways to dispose of microbead-containing products, for people who decide they don't want to use them any more.
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.
当微珠直径与微珠覆盖率都较大时,回归反光织物的反光强度就会提高。
At last it concludes that reflection strength of retro-reflective fabric will rise when all of diameter and coverage rate are bigger.
本文针对玻璃微珠填充聚丙烯这一刚性粒子填充聚合物复合体系进行了实验研究。
The properties of rigid particle filled polymers, glass bead-filled polypropylene with different interfacial designs are studied through experiments.
本文针对提高铸钢件冒口补缩效率问题,给出了微珠保温冒口的配方及生产工艺;
This article is written to explain how to improve the efficiency of riser feeding for cast steel items.
利用电沉积技术,在A3钢片上制备了含有微米级空心微珠粒子的镍基复合镀层。
The Nickel micron hollow tiny pearl composite coating on A3 steel substrate was prepared by electrodeposition technique.
研究小粒径玻璃微珠的粒径和用量对线形低密度聚乙烯(LLDPE)性能的影响。
The influence of small grain size glass bead (GB) on the properties of linear low-density polyethylene ( LLDPE) was studied.
本文用具体数据资料论述采用空心微珠保温冒口给铸钢生产带来的技术-经济效益。
This paper by the real data shows that greater technical and economic benefit can be achieved with this technique in production of steel castings.
具体地导出了单向纡维复合材料和空心微珠复合材料等效导热系数的组分设计公式。
The equivalence heat conduction coefficients of fiber reinforced and hollow sphere filled composite materials would be particularly proposed.
几年前殷亚东做了这样一个实验:当对微珠施加一个磁场压力时,珠子的颜色起了变化。
A FEW years ago Yadong Yin was experimenting with tiny beads that changed colour when a magnetic field was applied to them.
对多孔玻璃微珠作为多孔性固体吸附剂的研制及其在液相中的吸附性能做了初步研究。
As a porous solid adsorbent, porous glass microspheres were prepared and its adsorption feature in liquid phase was investigated.
最终得出结论:在该工程上应用玻化微珠节能保温系统具有良好的经济效益和环境效益。
Eventually come to the conclusion: in the project on the application of glass beads of energy-saving insulation system has good economic and environmental benefits.
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.
应用动态力学分析仪,考察了低频条件下玻璃微珠填充LDPE复合材料的动态力学性能。
The dynamic mechanical properties of glass bead filled LDPE composites were Iivestigated by using of a dynamic mechanical analyzer.
结果显示,微珠含量及其直径对复合物的拉伸屈服应力和屈服发生时的应变影响不太明显。
The results show that the influences of the glass beads content and its diameter on the tensile yield stress and strain at yield are not significant.
结果显示,微珠含量及其直径对复合物的拉伸屈服应力和屈服发生时的应变影响不太明显。
The results show that the influences of the glass beads content and its diameter on the tensile yield stress and strain at yield are not significant.
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