碳氮化,carbothermal reduction,在线英语词典,英文翻译,专业英语

1) carbothermal reduction

碳氮化

Employing slags bearing titania and carbon black as materials,Ti(C,N) were prepared by carbothermal reduction and nitridation between 1300 ℃ and 1500 ℃.

结果表明,实验温度范围内合成钛渣碳氮化后都有Ti(C,N)生成。

2) Titanium carbonitride

碳（氮）化钛

3) carbonitride

碳氮化物

Precipitation Law of Secondary Phase Particles Within Carbonitride of Nb-bearing Steel During Controlled Rolling and Controlled Cooling Process;

含铌钢碳氮化物二相粒子在控轧控冷工艺中析出规律

The Precipitation Behavior of Carbonitride of Nb+V Microalloyed Steel Under Controlled Rolling and Cooling Process;

控轧控冷工艺条件下Nb-V钢碳氮化物的析出行为

Numerical simulation of thermodynamic for carbonitride precipitation in austenite of complex microalloyed high strength and low alloy steels;

复合微合金化高强度低合金钢奥氏体相中碳氮化物析出热力学数值模拟

4) vanadium carbonitride

碳氮化钒

The effect of technical parameters on nitrogen content in vanadium carbonitride is investigated.

研究了一步法合成碳氮化钒的生产工艺及工艺参数对碳氮化钒氮含量的影响。

5) Ti(C,N)

碳氮化钛

Effect of Ti(C,N) on properties of low-carbon MgO-C brick;

碳氮化钛对低碳镁碳砖性能的影响

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

The conclusions are given as following: it's impossible to form pure TiN When there is solid carbon in the slag Fe interface, but Ti(C,N) can be formed, contained TiN amount increases with pressure of Nitrgon in the slag Fe int erface.

由热力学计算结果分析了高炉冶炼含ＴｉＯ_2铁矿时钛的物理化学行为，指出：有固体碳存在时，渣铁界面不可能有纯ＴｉＮ生成，应该析出Ｔｉ（Ｃ，Ｎ）固溶体，其中ＴｉＮ含量随着渣铁界面处氮分压值的增加而增加；生铁合钛量主要受形成碳氮化钛的反应所控制，与渣中ＴｉＯ_2含量无关；温度低，有利于限制Ｔｉ（Ｃ，Ｎ）的析出，“低硅钛”操作是合理的。

6) carbo-nitride

碳氮化物

Effect of Rolling Process on Carbo-Nitride Precipitation of Microalloy Steel EH420;

轧制工艺对微合金钢EH420变形奥氏体中碳氮化物析出的影响

The experimental results have shown that the undissolved particles were mainly complex carbo-nitride containing Nb and Ti with a spherical or ellipsoidal shape when the steel was soaked at a given temperature lower than 1 200 ℃ for 30 min.

采用SEM、TEM及EDS分析技术,研究了含钛、铌等多种微合金元素的高强钢中碳氮化物的溶解行为。

Base on regular solution model and traditional nucleation theory, carbo-nitride precipitation model in austenite of HSLA steel during continuous cooling process is developed.

采用规则溶液描述低合金高强度钢奥氏体相中碳氮化物的热力学性质,以经典形核理论为基础,建立了低合金高强度钢奥氏体相中碳氮化物在连续冷却过程中碳氮化物析出模型。

参考词条

碳氮化钚铌碳氮化物碳氮化合物高温碳氮化碳氮化处理 Ti碳氮化物钒碳氮化物碳氮化锆<冶> 时序分析散失率

补充资料：碳氮化钙

CaCN₂    分子量80．10
    无色六方晶系结晶体。工业品因含有碳素等杂质为深灰色粉末或颗粒。有电石或氨的气味。视密度0.9-1.1g/cm³。升华1090℃。熔点1300℃。遇水分解为氨气，体积增大，容易引起爆炸。有毒！人吸入后容易引起呼吸障碍发生痉挛。如含有杂质碳化钙或少量磷化钙时，遇水易自行燃烧。
    应用农业上是-种碱性肥料。用于酸性土壤，既可中和土壤酸性，又可利用土壤酸性消除毒性，因在转化成尿素的过程中，中间产物对作物有毒性，一般只作为基肥，不能直接作追肥和种肥；如用于碱性土壤中，因分解缓慢，且易形成双氰胺，故不宜施用。也是一种生产高效低毒多菌灵农药、除草剂、杀菌剂、杀虫剂的主要原料。另外，还是有机工业和塑料工业的基本原料，用于生产双氰胺、三聚氰胺、氰熔体、硫脲、有机玻璃等。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引碳氮化锆碳氮化铌碳氮化硅碳氮化硼碳/氮化物碳氮化钙

1) carbothermal reduction 碳氮化 1. Employing slags bearing titania and carbon black as materials,Ti(C,N) were prepared by carbothermal reduction and nitridation between 1300 ℃ and 1500 ℃. 结果表明,实验温度范围内合成钛渣碳氮化后都有Ti(C,N)生成。 2) Titanium carbonitride 碳（氮）化钛 3) carbonitride 碳氮化物 1. Precipitation Law of Secondary Phase Particles Within Carbonitride of Nb-bearing Steel During Controlled Rolling and Controlled Cooling Process; 含铌钢碳氮化物二相粒子在控轧控冷工艺中析出规律 2. The Precipitation Behavior of Carbonitride of Nb+V Microalloyed Steel Under Controlled Rolling and Cooling Process; 控轧控冷工艺条件下Nb-V钢碳氮化物的析出行为 3. Numerical simulation of thermodynamic for carbonitride precipitation in austenite of complex microalloyed high strength and low alloy steels; 复合微合金化高强度低合金钢奥氏体相中碳氮化物析出热力学数值模拟 4) vanadium carbonitride 碳氮化钒 1. The effect of technical parameters on nitrogen content in vanadium carbonitride is investigated. 研究了一步法合成碳氮化钒的生产工艺及工艺参数对碳氮化钒氮含量的影响。 5) Ti(C,N) 碳氮化钛 1. Effect of Ti(C,N) on properties of low-carbon MgO-C brick; 碳氮化钛对低碳镁碳砖性能的影响 2. 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 3. The conclusions are given as following: it's impossible to form pure TiN When there is solid carbon in the slag Fe interface, but Ti(C,N) can be formed, contained TiN amount increases with pressure of Nitrgon in the slag Fe int erface. 由热力学计算结果分析了高炉冶炼含ＴｉＯ_2铁矿时钛的物理化学行为，指出：有固体碳存在时，渣铁界面不可能有纯ＴｉＮ生成，应该析出Ｔｉ（Ｃ，Ｎ）固溶体，其中ＴｉＮ含量随着渣铁界面处氮分压值的增加而增加；生铁合钛量主要受形成碳氮化钛的反应所控制，与渣中ＴｉＯ_2含量无关；温度低，有利于限制Ｔｉ（Ｃ，Ｎ）的析出，“低硅钛”操作是合理的。 6) carbo-nitride 碳氮化物 1. Effect of Rolling Process on Carbo-Nitride Precipitation of Microalloy Steel EH420; 轧制工艺对微合金钢EH420变形奥氏体中碳氮化物析出的影响 2. The experimental results have shown that the undissolved particles were mainly complex carbo-nitride containing Nb and Ti with a spherical or ellipsoidal shape when the steel was soaked at a given temperature lower than 1 200 ℃ for 30 min. 采用SEM、TEM及EDS分析技术,研究了含钛、铌等多种微合金元素的高强钢中碳氮化物的溶解行为。 3. Base on regular solution model and traditional nucleation theory, carbo-nitride precipitation model in austenite of HSLA steel during continuous cooling process is developed. 采用规则溶液描述低合金高强度钢奥氏体相中碳氮化物的热力学性质,以经典形核理论为基础,建立了低合金高强度钢奥氏体相中碳氮化物在连续冷却过程中碳氮化物析出模型。参考词条碳氮化钚铌碳氮化物碳氮化合物高温碳氮化碳氮化处理 Ti碳氮化物钒碳氮化物碳氮化锆<冶> 时序分析散失率补充资料：碳氮化钙 CaCN₂ 分子量80．10 无色六方晶系结晶体。工业品因含有碳素等杂质为深灰色粉末或颗粒。有电石或氨的气味。视密度0.9-1.1g/cm³。升华1090℃。熔点1300℃。遇水分解为氨气，体积增大，容易引起爆炸。有毒！人吸入后容易引起呼吸障碍发生痉挛。如含有杂质碳化钙或少量磷化钙时，遇水易自行燃烧。应用农业上是-种碱性肥料。用于酸性土壤，既可中和土壤酸性，又可利用土壤酸性消除毒性，因在转化成尿素的过程中，中间产物对作物有毒性，一般只作为基肥，不能直接作追肥和种肥；如用于碱性土壤中，因分解缓慢，且易形成双氰胺，故不宜施用。也是一种生产高效低毒多菌灵农药、除草剂、杀菌剂、杀虫剂的主要原料。另外，还是有机工业和塑料工业的基本原料，用于生产双氰胺、三聚氰胺、氰熔体、硫脲、有机玻璃等。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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