cuspidine
- cuspidine的基本解释
-
-
[化] 枪晶石
- 更多网络例句与cuspidine相关的网络例句 [注:此内容来源于网络,仅供参考]
-
The bonding phase of self-fluxing sinter used before was composed predominately of cuspidine and hyaline, mechanical strength of which as well as their bonding strength with respect to magnetite are rather weak.
自熔性烧结矿的胶结相主要由枪晶石和玻璃体所组成,两者的机械强度都较低,对磁铁矿的相对胶结强度也较小。
-
The cuspidine is all long known as the main factor leading to the low strength o the sinter bearing fluorine, But with the fluorine decreasing by a wide margin, the strength of the sinter bearingfluorine get lower. So, the first work is to fine out the reason to cause the strength low.
含氟烧结矿中的枪晶石一直被认为是制约包钢烧结矿强度的主要因素,但随着含氟量的大幅度降低,烧结矿的强度却进一步恶化,因此,弄清影响低氟烧结矿强度的原因是提高烧结矿强度的前提和基础。
-
This thesis has systematically studies the microstructure of the sinter bearing fluorine of different compositions and in different sintering condition.(1) The main units of the Low Fluorine Sinter are magnetite、hematite、 SFCA、larnite、glass and pore. The cuspidine doesn't form for the low content fluorine, and the fluorine is in glass; Sinter basicity dominates the forming of the larnite and SFCA, when basicity is between 1. 72 and 1. 96, there are more larnites in the binder phase, and when the basicity is biger than 1. 96, there are more SFCA in the binder phase; the hematite appears like magnetite and usually is around pore.
为此,本文对不同组成、不同烧结条件的烧结矿样品进行了系统的显微分析和研究,其主要内容包括:(1)构成低氟烧结矿的主要组元有磁铁矿、赤铁矿、铁酸钙、硅酸二钙、玻璃体和气孔,由于含氟量的降低,枪晶石等含氟矿物并未形成,氟分布在后期凝固的玻璃体中,其中硅酸二钙和铁酸钙受碱度影响较大,硅酸二钙在碱度为1.72~1.96范围内形成较多,铁酸钙在碱度大于1.96含量增多,赤铁矿呈磁铁矿假象,多分布在气孔周围,各组元的生成顺序为:磁铁矿—硅酸二钙—铁酸钙—玻璃体。
-
The results showed that:①the crystalline phases are mainly the cuspidine, wollastonite and gehlenite with nepheline, fluorite and olivine also found in some samples under the experimental conditions;②with the bacisity and CaF_2 content increased, crystalline proportion of mold flux rises .
熔融保护渣在MoSi2高温电阻炉内以2℃/min降温速率冷却至室温,制成薄片,采用岩相显微镜分析保护渣的结晶矿相·结果表明:在本实验条件下,结晶矿相主要有枪晶石,硅灰石,黄长石,个别渣样有霞石,萤石,橄榄石;增大保护渣碱度,能促进保护渣结晶;随着渣中CaF2,Na2O,K2O和Li2O质量分数的增大,保护渣结晶化率增大;随着渣中Al2O3,MgO,BaO和MnO质量分数的增大,保护渣结晶化率减小
-
In the condition of keeping F、 K、Na content fixed, To improve slag structure and raise slag melting point and viscosity, MgO content is raised and TiO〓 is added. the main content is as follows:(1) Keeping CaO/SiO〓 fixed, MgO content rises from 10% to 16%, the free running temperature goes up 106℃, the viscosity goe down at bigger than 1425℃, but difference is little; keeping /SiO〓 fixed, MgO content rises from 10% to 16%, the free running temperature rises 87℃, the viscosity rises too; adding TiO〓 to 5%, the free running temperature goes up 98℃, the viscosity rise a little.(2) Powder crystal x ray diffraction and microscopic analysis shows: increasing MgO content, the cuspidine will decreace or even disappear, the monticellite goes up with MgO content rising, keeping /SiO〓 fixed, Akermanite content goes up, for high melting point minerals appear or go up, the free running temperature of the slag bearing F is raised; Adding TiO〓, high melting point mineral—Perovskite forms, it can making other minerals'crystalling fast, it is the reason that TiO〓 raises the free running temperature of the slag bearing F.
2对测定粘度的冷凝渣所进行的X粉晶衍射及显微分析和鉴定表明,增加MgO含量,渣中枪晶石将减少甚至消失,而钙镁橄榄石则随MgO含量增加而增加,在/SiO〓不变时,黄长石含量也有所增加,高熔点矿物的出现和增加,提高了含氟熔渣的熔化性温度;加入TiO〓熔渣中将形成高熔点矿物-钙钛矿,钙钛矿的形成还促使黄长石的结晶,这是TiO〓提高含氟熔渣熔化性温度的根本原因。
- 更多网络解释与cuspidine相关的网络解释 [注:此内容来源于网络,仅供参考]
-
cuspidine:枪晶石
cuspate foreland 三角岬 | cuspidine 枪晶石 | cuspidite 枪晶石