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%.
具有更优秀的入射角,这也正是玻璃微珠的优势所在。
This sheeting has excellent entrance angularity, which is typical of encapsulated lens glass bead sheeting.
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.
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.
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.
该公司是研磨介质专家,生产的产品不仅包括玻璃微珠还有陶瓷微珠。
The specialist for grinding media does not only produce glass beads but also ceramic beads.
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.
所述反光膜步骤为在铝层上贴由pvc、PU和玻璃微珠形成的反光膜。
The step of the reflective layer is: pasting a reflective film formed by PVC, PU and glass beads on the aluminum layer.
通过分析测试,深入研究了玻璃微珠对PTFE密封板材性能的影响。
On the basis of the test, the influence of glass microballoon on property of PTFE sealing materials has been studied.
目前,液晶显示器所用的玻璃衬垫主要分为玻璃纤维衬垫和玻璃微珠衬垫。
The present glass-spacers are classified as glass fiber spacer and glass ball spacer.
反光材料是由高折射率的玻璃微珠和特殊的合成树脂通过复杂的工艺组合而成的。
Reflective material is made from high refractive index glass beads and a special synthetic resin through a combination of complex processes.
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.
总结出了多孔玻璃微珠孔径的控制方法和提高多孔玻璃微珠的吸附量的有效方法。
At last, the effective means of control the aperture of porous glass microsphere as well as the means of increasing the adsorption amount of porous glass microsphere is proposed.
制卡和会员卡制作机在举行涂布增工时仿佛更方向于搁置涂覆无机硅的玻璃微珠。
Business card printing and membership card-making machine to be coated at the time seemed to be more inclined to use the sensitibvity and cenospheres organosilicone .
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.
研究了玻璃微珠乳胶涂料成膜物的合成,叙述了各种因素对聚合物涂膜性能的影响。
Study was made of synthesis of film forming material for glass microballoon emulsion coating and influence of various factors on polymer film performance is described.
结果表明飞灰中玻璃相含量高达57%,其中的玻璃微珠使得飞灰具有较大的活性;
The results show that the fly ash contains 57% glass substance, and among which the existence of the micro-balloon enhances its activity.
在近场区域,密度大的玻璃微珠对气相湍流度的增强作用高于密度小的聚苯乙烯颗粒;
In the near-fields, the gas-phase turbulence intensities are augmented more by glass particles with larger density than polyethylene particles with smaller density.
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.
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.
另外,适量的玻璃微珠能够起到异相成核作用,一定程度上增加了UHMWPE的结晶度。
In addition, appropriate amounts of glass beads can increase the crystallinity of UHMWPE via a process of heterogenous nucleation.
另外,适量的玻璃微珠能够起到异相成核作用,一定程度上增加了UHMWPE的结晶度。
In addition, appropriate amounts of glass beads can increase the crystallinity of UHMWPE via a process of heterogenous nucleation.
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