1) dense firebrick
致密耐火砖
2) dense zircon block
致密锆砖
3) firebrick
[英]['faiəbrik] [美]['faɪr,brɪk]
耐火砖
1.
In addition,the refractory firebrick were connected by male and female connection to ensure that the flue would not leak to the shell of the duct.
后经设计者反复调研考察,将衬里结构由原龟甲网加浇注料改造为耐火砖涂抹耐火浇注料,且在烟道顶部前后方向设计成三块"n"形耐火砖,耐火砖之间采用凸凹配合使烟气不能泄漏到烟道壳体。
2.
It determined replacing material for the cylinder and the heat-insulation hanging piece would be replaced by the home-made firebricks.
通过对烧蚀损坏的低热值燃气轮机单筒燃烧室检查、分析,找出了损坏原因,确定筒体替代材料,开发国产耐火砖替代隔热挂片,对燃烧室进行了修复,积累了检修经验和技术数据。
3.
This paper discusses how to improve expand section's lining of heavy_calibre and high_tempreture, the steel_fibre lining is improved to be the lining of firebrick and fireproof material, to avoide the lining drop and meet the needs of production.
阐述了如何将大口径高温膨胀节衬里由钢纤维双层衬里改为耐火砖加耐火浇注料结构,避免了衬里脱落,满足了生产需要。
4) refractory brick
耐火砖
1.
Damage to refractory brick at the feed end of rotary kiln and the measure;
损坏回转窑冷端耐火砖的主要原因及其对策
2.
Choosing and using refractory brick accurately to eliminate chrome harm to the environment;
合理选择和使用耐火砖消除铬对环境的危害
3.
Measures to prolong the lifespan of refractory brick in rotary kiln;
延长回转窑耐火砖使用寿命的几点举措
5) Fire brick
耐火砖
1.
The study shows that using kyanite as a major raw material, high-quality mullite insulating fire bricks can be produced by adjusting the structure of pores in the bricks, the grain sizes of kyanite and sintering temperature curves.
本文研究了利用蓝晶石制作轻质莫来石耐火砖的可行性,并探讨了轻质莫来石耐火砖的基本原理及在烧成过程中的物相变化。
2.
Combined with coke oven construction work in one coking factory from management and transportation of fire brick, mud management, mark rod setting and other aspects the preparation work is elaborated as well as the requirements before masonry construction of furnace body.
结合某焦化厂焦炉施工平面布置概况 ,从耐火砖的管理、运输、泥浆的管理、砌砖控制线和标杆的设置等方面 ,阐述了焦炉的施工准备措施 ,提出了炉体砌筑前的必备条
3.
In this article analyed theoretically are the two types of fire brick dies with complicated force and external shape.
对外形和受力都比较复杂的两种耐火砖模具的强度进行研究。
6) chromium firebrick
铬耐火砖
补充资料:锆碳砖
分子式:
CAS号:
性质:以ZrO2和C为主要成分的耐火材料。锆碳砖的抗渣侵蚀性随ZrO2含量的增加而提高,但热震稳定性则随之降低,最佳的ZrO2含量允60%~80%,C+SiC含量在18%~28%。锆碳砖有优良的抗渣侵蚀性,特别是抗连铸钙的保护渣,其侵蚀速率是铝碳材料的30%~40%。含ZrO275%,C+SiC21%的锆碳砖的显气孔率为15.5%,体积密度为3.65g/cm3,抗弯强度8.3MPa,1000℃的热膨胀率为0.46%。通常用氧化钙稳定的二氧化锆和高纯鳞片石墨,采用高温陶瓷工艺方津制造。主要用于连续中间包整体塞棒的端部。
CAS号:
性质:以ZrO2和C为主要成分的耐火材料。锆碳砖的抗渣侵蚀性随ZrO2含量的增加而提高,但热震稳定性则随之降低,最佳的ZrO2含量允60%~80%,C+SiC含量在18%~28%。锆碳砖有优良的抗渣侵蚀性,特别是抗连铸钙的保护渣,其侵蚀速率是铝碳材料的30%~40%。含ZrO275%,C+SiC21%的锆碳砖的显气孔率为15.5%,体积密度为3.65g/cm3,抗弯强度8.3MPa,1000℃的热膨胀率为0.46%。通常用氧化钙稳定的二氧化锆和高纯鳞片石墨,采用高温陶瓷工艺方津制造。主要用于连续中间包整体塞棒的端部。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条