本文介绍了专家预测控制技术在EVA发泡机中的具体应用情况。
This article introduced the application of expert predictive control technology in the EVA foam machine.
同一类型的不同点,只是其附属的设备与自动化控制的方面的差异,聚氨酯高压发泡机部分结构大体的都是相同的。
Different points of the same type, but the difference between the subsidiary device and the automatic control, the part of the structure of the high pressure foaming machine is the same as the same.
研制的高温发泡陶瓷具有烧成温度低、烧成时间短、烧成温度范围宽、易于生产控制的特点。
The high temperature foamed ceramic produced has low firing temperature, short duration of firing, wide range of firing temperature and easily control production.
在低发泡硬质聚氯乙烯整体门板的挤出成型中,控制聚合物熔体的流动和发泡是保证产品质量的关键。
To control the melt flowing and foaming of polymer are the key factors to ensure the quality of products during the extrusion moulding of the integral door leaf of low foamed rigid PVC.
这种发泡机采用变频调速控制装置。
This foaming machine adopts frequency conversion control device.
研究、建立了聚合物微孔发泡过程中的气泡成长数学模型,以控制发泡过程中的泡孔尺寸大小和尺寸分布。
This paper studied and established the mathematical model for bubble growth in polymer during microcellular foaming, for controlling the cells size and their distribution.
根据发泡机工艺特点和其对系统自保护和自恢复等功能的技术要求,本文利用可编程序控制器实现了其控制功能。
According to the technological features of the foaming machine and technical requirements of self-protection and self-resumption for the system, the control is realized by the PLC system.
蒸汽控制旋钮让牛奶发泡、加热,更易操作;
Vari-steam control and swivel frother facilitate milk frothing ;
介绍了硅橡胶发泡胶带的制备工艺,以及发泡剂、硫化剂用量的影响,确定了胶带的配方及其质量控制标准。
The technology of making the belt of foaming silica rubber, the level of foaming agent and vulcanizator were introduced, the formula and quality standard of the belt were also determined.
本文将详细讨论异戊烷发泡聚氨酯硬泡的生产和泡沫性能及安全控制。
This paper deals with the production and properties of iso-pentane blown PU rigid foams, and safety control.
本机采用变频调速控制技术,运行平稳、生产效率高,是自动发泡的必备配套设备。
Its running is reposeful. The cutting is accurate, the production efficiency is high. It is assorted equipment of foam foaming machine.
结果表明,改变CO_2的压力可以控制发泡的泡孔密度和泡孔大小。
The results show that the cells' density and size can be controlled by controlling the processing pressure and the foaming temperature.
结果表明,改变CO_2的压力可以控制发泡的泡孔密度和泡孔大小。
The results show that the cells' density and size can be controlled by controlling the processing pressure and the foaming temperature.
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