1) non-carbonaceous brick
无碳砖
2) non-carbon ladle brick
无碳钢包砖
1.
The realistic problem of non-carbon ladle brick in wet process of construction was introduced in this paper.
针对无碳钢包砖“湿砌”施工过程中所遇到的实际问题,叙述了无碳钢包砖专用火泥的研制开发过程,新研制的火泥有效解决了无碳钢包砖“湿砌”难的问题。
3) carbon-free unburnt brick
无碳不烧砖
4) carbon brick
碳砖
1.
Erosion reasons are particularly analysized,conclusion is drawn as follows:the erosion is closely related with the property of carbon brick and the qranlity of lined brick.
对侵蚀原因做了具体分析,得出结论:与碳砖性能、砌筑质量等有很大关系。
2.
The method measuring the erosion resistance of BF carbon brick in molten iron has been researched by simulating BF hearth operation condition.
模拟高炉炉缸生产条件,研究了定量测定高炉碳砖的抗铁水溶蚀性能的方法。
5) unfired carbon-free alumina-magnesia ladle brick
免烧无碳铝镁钢包砖
1.
In order to meet the requests of producing the low-carbon and ultra-low-carbon steel, the unfired carbon-free alumina-magnesia ladle bricks are developed.
为适应生产低碳钢、超低碳钢的要求,研制免烧无碳铝镁钢包砖。
6) low carbon MgO-C brick
低碳镁碳砖
1.
Effect of Ti(C,N) content on properties of low carbon MgO-C brick;
碳氮化钛的加入量对低碳镁碳砖性能的影响
2.
The physical properties, oxidation resistance, and thermal shock resistance of the low carbon MgO-C brick specimens added with the synthesized B4C-C composite powder are excellent.
以炭黑和硼酸为原料,采用碳热还原法合成了部分石墨化B4C-C复合粉体,并将其作为碳源和抗氧化剂用于低碳镁碳砖中。
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