1) iron-nitride
氮化铁型
1.
In this paper, according to the different kinds of magnetic particles in the magnetic fluids, the preparation methods of ferrite, metal, and iron-nitride magnetic fluids and the prospect of the preparation technology are introduced.
根据磁性液体中磁性粒子的不同,分别介绍了铁氧体型、金属型和氮化铁型磁性液体的制备方法,并对磁性液体制备的发展方向进行展望。
2) iron nitride
氮化铁
1.
Study on nano-particles of iron nitride prepared by dielectric barrier discharge
介质阻挡放电制备氮化铁纳米粒子的研究
2.
Environmental catalytic material of iron nitride nanoparticle was synthesized by Benzene-thermal method.
采用苯热法合成环境催化材料纳米氮化铁。
3.
However, there are few studies on preparing iron nitrides by TPR and no study on applying them into the hydrazine decomposition.
然而TPR法制备氮化铁并用于催化肼分解反应的研究和报道并不多见。
3) N-MnFe
氮化锰铁
1.
Determination of nitrogn in N-MnFe by titrimetry with amidosulfonic acid after alkaline distillating separation;
强碱蒸馏分离-氨磺酸滴定法测定氮化锰铁中氮
4) Ferro silicon nitride
氮化硅铁
1.
The distribution status of Fe in the ferro silicon nitride (FeSi_(3)N_(4)) material synthesized by flashing combustion process was analyzed by means of fluorometric measurement, XRD, SEM and EDS.
用化学分析、XRD,SEM,EDS等检测手段,首次对闪速燃烧工艺制备的新型合成原料———氮化硅铁(FeSi3N4)中铁元素的存在状态进行了研究。
5) nitride iron
氮化铁
1.
The influences of Fe(CO)5 thermal decomposition temperature (iron nitriding temperature), the flow of NH3 and surface activated agent on the preparation of nitride iron magnetic fluid were discussed.
探讨了Fe(CO)5热分解温度(Fe的氮化温度)、NHa流量及表面活性剂对制备氢化铁磁性液体的影响结果表明,将Fe(CO)5热分解温度控制在180—210℃,并通入过量的NH3及采用与纳米级氮化铁磁性颗粒和载液相匹配的表面活性剂可以制备出性能较好的氮化铁磁性液体。
6) nitrided ferrovanadium
氮化钒铁
1.
Industrial experiment of producing high-strength reinforcement metal with nitrided ferrovanadium
使用氮化钒铁合金生产高强度钢筋的工业试验
2.
The small size particles produced during ferrovanadium sizing operation are formed into nitrided briquette so as to obtain nitrided ferrovanadium, The effect of ferroalloy size, pressure, nitriding temperature and nitniding time was studied on the nitrogen content of the product.
对高钒铁合金精整过程中产生的细颗粒物料进行压块渗氮,得到氮化钒铁产品,研究了合金粒度、压块压强、渗氮温度、渗氮时间对产品含氮量的影响。
补充资料:氮化硅晶须补强氮化铝陶瓷基复合材料
分子式:
CAS号:
性质:以氧化铝陶瓷为基体,氮化硅晶须为增强体的复合材料,是一种性能优异的耐高温结构陶瓷。加入氮化硅晶须,可使氧化铝陶瓷的强度、韧性、抗热震性等得到明显的改善。在氧化铝基体中,加入20%(质量)氮化铝晶须制得的复合材料基强度提高了约50%,断裂韧性KIC达到氧化铝基体的1.5倍。这种材料可用于机械受力及耐磨部件以及作为耐热、耐腐蚀部件。
CAS号:
性质:以氧化铝陶瓷为基体,氮化硅晶须为增强体的复合材料,是一种性能优异的耐高温结构陶瓷。加入氮化硅晶须,可使氧化铝陶瓷的强度、韧性、抗热震性等得到明显的改善。在氧化铝基体中,加入20%(质量)氮化铝晶须制得的复合材料基强度提高了约50%,断裂韧性KIC达到氧化铝基体的1.5倍。这种材料可用于机械受力及耐磨部件以及作为耐热、耐腐蚀部件。
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