发泡 模具的大小可随产品需要随意调整,发泡保温层的厚度随着发泡模具的大小而变化。本制作方法能简化制作流程,提高了生产效率,并且降低了成本。
The present invention can make foamed heating layer around the inner container in proper thickness, and has simple making process, high production efficiency and lowered cost.
并对经济保温层厚度和保温地段的选取分别作了阐述。
Here respectively related are the economical insulation thickness and selection for such insulation.
图3.11描述了设置在建筑中的保温层,图3.13表示了其内部构造,图示说明了其非常规的位置和屋顶厚度。
Figure 3.11 depicts the levels of insulation installed in the house construction, while figure 3.13 shows the interior, which illustrates the exceptional position and thickness of the roof.
本文探讨和介绍了蒸汽直埋敷设管道的保温及保温层厚度计算方法。
The heat preservation and calculation method for thickness layer of directly-buried steam pipes are discussed and introduced.
研究结果表明,为不对冻土造成较大热扰动,保温层厚度应采用控制保温管外表面温度的计算方法。
Findings show that, for be in the wrong frozen soil wrought in favor of thermal disturbance, insulating layer thickness respond adopt dam insulating pipe hull skin temperature 'calculation procedure.
从寿命经济学观点出发,讨论了工业炉热风管道最佳保温层厚度的问题。
From the view of life cycle and economics the optimum insulation thickness of hot air pipes in industrial furnaces is discussed.
以立式拱顶储罐为例,根据限定的温降值和限定的温降时间,建立了确定储油容器保温层厚度的计算公式。
Taking vertical dome tank as an example, the calculation formula for insulation thickness of oil tank are given based on controlled temperature drop and duration.
测量结果表明:油垢厚度响应曲线是灵敏的,保温层对测量结果影响不大。
Experimental results indicate that the thickness response of grease stain is sensitive and the thermal insulating layer has no too much effect on the obtained results.
本文同时分析了经济保温层厚度的影响因素。
At the same time, the paper analyzes the influencing factors of economical insulation thickness.
本文对保温材料的导热系数、湿度、保温层厚度等影响保温工程热损失的一些因素作了简要分析。
This article analyzes briefly the factors of effects on heat lose of thermal insulating engineering, such as thermal conductivity, humidity, and thickness of insulating layer etc.
通过不同的绝热材料的比较,可以方便地选择绝热材料和确定最适宜保温层厚度。
By means of comparison to different heat insulating materials, man may conveniently select heat insulating materials and determine the most suitable thickness of insulating layer.
保温层厚度的优化是含有多变量非线性目标函数的优化。
The optimum thickness for the insulating layer is to find the optimal solution for a nonlinear objective function.
通过有限生命周期内微型冷库经济性能的分析,推导了微型冷库在使用年限不同时的经济保温层厚度计算公式。
The calculation equation of the economic insulating layer thickness in different service life was (derived) through the life cycle economical analysis of the mini-cold storage.
结果表明,在微型冷库生命周期内最佳保温层厚度与微型冷库的库容无关,而只与电价、制冷机组的价格系数等因素有关。
The results show that the thickness only has relation with the power price, the coefficient of the price of the refrigeration unit, etc.
结果表明,在微型冷库生命周期内最佳保温层厚度与微型冷库的库容无关,而只与电价、制冷机组的价格系数等因素有关。
The results show that the thickness only has relation with the power price, the coefficient of the price of the refrigeration unit, etc.
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