Multidirectional liquid circulating system decreases bath ratio and increases the uniformity of bath liquid.
多向的循环液流系统,降低了活比,增加了浴液的均匀度。
Solubility of dye commodities is the reason for restricting the dye-uptake enhancement and the low bath ratio process popularization.
染料商品化中的染料溶解性一直制约着上染率的提高和小浴比染色新工艺的推广。
The effects of temperature, salts, basics, bath ratio, etc. on dyeing performance were studied, and the optimum conditions were obtained.
研究了染色过程中温度、盐类、碱剂、浴比等诸因素对染色效果的影响,优选出最佳方案。
Besides the cell voltage, bath temperature and bath ratio, the inputs of the system also include the liquidus temperature, superheat extent and cathode voltage.
系统的输入参数除传统的电压、温度和分子比外,还采用初晶温度、过热度和阴极压降等作为系统的输入参数。
The experimental results show that the low bath ratio fast bleaching and dyeing technology bears the characteristics of time saving, energy saving, dye saving and cost decrease.
实验结果表明:低浴比快速漂染工艺具有省时、节能、节约染化料和降低成本的特点。
The optimum extracting and drying technology of the UHMWPE gel fiber including the optimum extracting time, extracting bath ratio, drying temperature and drying time were studied and determined.
探索并确定了冻胶纤维的最佳萃取和干燥工艺,包括最佳萃取时间、最佳萃取浴比、干燥温度和干燥时间等。
Based on this platform, a fuzzy expert system of aluminium fluoride's feeding is developed. It is applied to controlling of the aluminum electrolysis's bath temperature and ratio.
以此专家系统为平台,开发了电解铝过程中氟化铝添加的模糊专家系统,控制电解质温度和分子比。
The decarburization rate in bath is proportional to the intensity of oxygen supply and the utilization ratio of oxygen depends on the oxygen pressure.
在高碳范围内熔池脱碳反应速度与供氧强度和氧气利用率成正比。而提高吹氧压力可以提高氧气利用率。
The decarburization rate in bath was proportional to the intensity of oxygen supply and the utilization ratio of oxygen was enhanced with the oxygen pressure rising.
在高碳范围内熔池脱碳反应速度与供氧强度和氧气利用率成正比,而提高吹氧压力可以提高氧气利用率。
If the suitable bath is applied to heating and extracting procedure, the extracting ratio can be increased.
熔融提气过程中选用适当的浴料,可以提高氮氧的释放提取率。
An increase of in the cobalt content in the alloy was observed with decreasing the current density and increasing of the Co2 + ions concentration ratio in the bath.
而随电流密度的减少,及镀槽内Co2 +离子浓度比的增加,合金中钴含量增加。
An increase of in the cobalt content in the alloy was observed with decreasing the current density and increasing of the Co2 + ions concentration ratio in the bath.
而随电流密度的减少,及镀槽内Co2 +离子浓度比的增加,合金中钴含量增加。
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