1) self baking carbon block ceramic brickwork
自焙炭块陶瓷砌体
2) selfbaked carbon block and ceramic bricks
自焙炭块-陶瓷砌体
1.
New structure of selfbaked carbon block and ceramic bricks BF hearth;
高炉自焙炭块-陶瓷砌体炉缸结构的优化
4) technique of self roasted carbon
自焙炭砖-陶瓷杯技术
5) self baking carbon block
自焙炭块
1.
The compound hearth lining with self baking carbon blocks and ceramic cups has been applied in large BFs for ten years.
自焙炭块陶瓷砌体复合炉缸技术在大型高炉上的应用已有 10年 ,总的来说是成功的 ,但由于自焙炭块自身的特性 ,应用中也暴露出了一些问题。
2.
True specific density of self baking carbon block with different graphitization degree was detemined by X ray diffraction method.
采用X射线衍射方法测定了具有不同石墨化率的自焙炭块的真密度ρu,并结合体积质量ρb估算了全气孔率q和比孔体积V·同时采用EPM方法观测了自焙炭块的气孔形态,并与美国UCARNMA系列炭块进行了比较,认为:国产自焙炭块的气孔形状及力学结构不尽合理;1450℃下铁液在该炭块孔隙中的渗透较明显,且随时间的延续,渗透深度增加
3.
Apparent porosity P a and bulk density D b of self baking carbon block were determined by using a water absorption.
采用浸渍法测定了具有不同石墨化率自焙炭块的体积密度和显气孔率,并与其它炭块进行了比较。
6) self-baking carbon block
自焙炭块
1.
Permeation process of the molten iron in a self-baking carbon block (SBCB)was studied at both 1450 and 1500℃.
本文在1450和1500℃下,对铁液在自焙炭块中的渗透过程进行了实验研究利用EPM观察并确定了各种条件下铁液在自焙炭块中的渗透程度,得到渗透深度与时间的定量关系h2=11773t(1450℃);结合渗透及流体流动理论,提出了一个渗透模型及与渗透性相关的材料孔隙结构参数,文中还讨论了温度及石墨化度对渗透的影响。
2.
Enthalpy change, △H, of partially graphitized self-baking carbon block with different graphitization degree has been determined by means of copper calorimeter in temperature range from 14 to 1000℃.
采用绝热铜卡量热计法在287—1273K的温度范围内测定了不同条件下自焙炭块的热焓。
3.
Thermal diffusivity, α, of self-baking carbon block with different graphitization degrees was determined experimentally by means of laser-pulse within temperature range of 200 1100℃.
采用激光脉冲加热及降温法测定了石墨化率不同的自焙炭块在200—1100℃范围内的热扩散率α。
补充资料:阳砌
1.向阳的台阶。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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