So the increase of the particle size, and coating particles are constantly increasing the amount of electricity, powder rate is also constantly improved.
那么增大的颗粒粒径,及涂料颗粒都是不断的带电量进行增加的,上粉率也是不断的有所的提高的。
Analysis the characteristic and nature of the nano particle, we discussed a scheme of how to coating the nano material to the fabrics.
对纳米粒子进行特性与表征分析,探讨如何将纳米粒子整理到织物及服装产品上的方案。
Particle size Distribution. The range of particle sizes in the manufactured powder coating.
粉末涂料生产时的粒子尺寸范围。
The sizes of filler and abrasive have influence on the solid particle erosion of coating under the given condition, the size of filler be of weak influence on the slurry erosion.
填料粒度和磨料粒度都对涂层的气固冲蚀磨损有影响,但在给定的试验条件下,填料粒度对涂层的浆体冲蚀磨损影响甚微。
Organic kind of heat preservation material mainly comes from oil byproducts, including EPS (EPS), extruded polystyrene (XPS), polyurethane coating (SPU) and polystyrene particle etc.
有机类保温材料主要来源于石油副产品,包括膨胀聚苯板(EPS)、挤塑聚苯板(XPS)、聚氨酯喷涂(SPU)以及聚苯颗粒等。
The coating is split and rough owing to the cellulose, so the problem can be solved by adjusting the proportion of coating particle and controlling the sduble silicate concentration.
因此通过时涂料的颗粒度比例的调整以及水玻璃浓度的控制来解决以上问题。
Blade scratch Paper defect where there is a hair-like indentation in a coated surface running in grain direction. Caused by a particle lodged behind the blade during coating.
顺着纸纹方向,纸面的涂层有着像头发丝的凹痕故障。起因是在涂布时有一颗料积聚在刮刀后面所致。
This paper reviews the main study results and the growth dynamics modeling of particle in the granule coating process of the fluidized bed with spraying in recent years.
对近年来喷雾流化床颗粒包衣过程的主要试验研究成果以及颗粒包衣的成长动力学模型的研究进展进行了综述。
The results show clearly that the microwave absorption of dispersions of metallic ultra fine grain relates to particle size, coating thickness, and method preparation.
结果表明:金属超细颗粒弥散系的微波吸收与粒度、涂层的厚度及配制方式有关。
Defects such as gel particle and coating agent penetrating into base cloth will easily arise in solvent-based polyurethane coating with float knife coater.
在浮动式刮刀涂层机上进行溶剂型聚氨酯涂层,易产生溶胶胶粒、涂层剂渗入基布等疵病。
When the oxygen fuel ratio is too high, particle decarburization and binder phase nonuniform contract in the cooling process are the determining factors to the coating structure and properties.
氧燃比过高,粒子脱碳和黏结相在冷却过程中收缩不均匀是影响涂层结构和性能的决定因素。
Coating: Particle, pill protection layer, prepared colors, slow-release, and other enteric coating.
包衣、颗粒、丸剂保护层、备色、缓释、肠溶包衣等。
The theory on elastic impact was used to analyze the shock effect of single particle, which is the main influencing factor of aircraft coating erosion.
运用弹性碰撞理论,分析单粒子的冲击效应对飞行器涂层的影响。
The properties and the microstructure of the coating are compared. Results show that concentrated spray plume and high particle velocity are acquired. The quality of atomized particle is improved.
结果表明:高速电弧喷涂粒子束更加集中,粒子的飞行速度显著提高,粒子的雾化效果明显改善。
Effects of different coating materials of microencapsule, amount of coating materials, distribution of particle size on whitening were discussed.
对微胶囊红磷阻燃剂的白度化进行了研究,探讨了囊材、囊材含量、粒径分布等因素对白度化的影响。
When WC content is more then 50%, spray-fusing technological property becomes worse, hardness of sprayed coating and low-stress abrasive particle wear resistance are weaken.
当w(WC)大于50%时,WC的加入使喷熔工艺性能变得极差,喷熔层的硬度和耐低应力磨粒磨损性能降低。
The technology of coating TiO 2 film on the surface of ultra fine calcined coal kaolin particle was studied.
研究了超细煤系煅烧高岭土颗粒表面包覆二氧化钛膜的工艺。
Surfactant, mechanical and ultrasonic technique are applied together to diverse nano-particle among composite electro-brush plating coating.
本文选用表面活性剂、恒温磁力搅拌和超声波相结合的方式,对复合镀液进行分散。
The effects of matrix temperature and particle velocity on residual stress in the coating were studied.
研究基体温度和粒子速度对涂层残余应力的影响。
When the oxygen fuel ratio is too low, slow particle flight speed and insufficient melt are the main reasons for the degradation of the coating compactness and mechanical properties.
氧燃比较低,粒子飞行速率低和熔融不足是涂层致密性和力学性能下降的主要原因;
Conclusion: the coating particle has good effect on taste masking. And the preparation of taste masking suspension particle is suitable for children patients to take.
结论:颗粒包衣工艺掩味效果佳,制备的掩味混悬颗粒适合儿童患者服用。
The metal coating film formed over the entire surface of the electrically non-conductive particle can impart electrical conductivity to the electrically non-conductive particle.
该导电性粒子通过在非导电性粒子的整个表面上形成的金属薄膜而被赋予导电性。
The metal coating film formed over the entire surface of the electrically non-conductive particle can impart electrical conductivity to the electrically non-conductive particle.
该导电性粒子通过在非导电性粒子的整个表面上形成的金属薄膜而被赋予导电性。
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