研究工作为应用拖偶实验数据进行总括热吸收率的参数辨识提供了必要的补充。
This study provides necessary supplement for reverse resolution of total heat exchange factor applying experimental data.
为解决该问题,在建立钢坯加热过程数学模型的基础上,提出了总括热吸收率的试验修正方法。
To solve this problem, an experimental correction method of dynamic compensation of THEF was therefore proposed on the basis of establishing steel heating process mathematical model.
复杂的炉内热交换过程容易导致根据总括热吸收率法建立的加热过程数学模型的计算精度降低。
Computational accuracy of heating process mathematical model based on total heat exchange factor (THEF) method was found easy to decrease due to complex heat exchange process in a furnace.
以某轧钢厂的一台步进梁式加热炉为例,计算了钢坯表面热流沿炉长方向的分布,并反算求解总括热吸收率。
The heat flux to slab surface of a walking beam reheating furnace along length of the furnace is computed, and total heat exchange factor is also calculated.
应用表面热透镜技术研制了薄膜吸收测量仪,测量结果表明其吸收率测量灵敏度和精度均达10- 6量级。
A measurement apparatus for thin film absorption based on STL technique is constructed. The measuring results prove that the sensitivity and accuracy of this instrument reach 10 -6 magnitude.
在辐照过程中原位测量热控涂层的太阳吸收率参数。
The in-situ measurements for solar absorptance were carried out during irradiation.
本文以比吸收率和温度分布图形说明三维成像技术在肿瘤热疗中的应用。
In this paper, a series of the SAR and temperature distributions are shown for the applications of 3d Imaging technique in hyperthermic oncology.
本文以比吸收率和温度分布图形说明三维成像技术在肿瘤热疗中的应用。
In this paper, a series of the SAR and temperature distributions are shown for the applications of 3d Imaging technique in hyperthermic oncology.
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