1) niobium-ferrite stainless steel
含铌铁素体不锈钢
2) Cu-contained ferrite stainless steel
含铜铁素体抗菌不锈钢
4) Cr11 Ferritic Stainless Steels
Cr11铁素体不锈钢
5) ferritic stainless steel
铁素体不锈钢
1.
Analysis of the welding methods of TCS ferritic stainless steel used on railway vehicle;
铁路货车车体用TCS铁素体不锈钢焊接方法分析
2.
Influence of rare earth element on the mechanical properties and microstructure of ferritic stainless steel;
稀土对低铬铁素体不锈钢组织与力学性能的影响
3.
Electrolytic dissolving ferritic stainless steel by layers and determination of chromium and silicon in the surface and the matrix of the stainless steel;
电解法逐层溶解铁素体不锈钢并测定表层和基体中铬和硅的含量
6) ferrite stainless steel
铁素体不锈钢
1.
Appearance of weld and impact toughness for the joints of ferrite stainless steel by laser-MAG hybrid welding
铁素体不锈钢激光-MAG复合热源焊缝成形及接头冲击韧性分析
2.
The effect of welding heat input on the microstructure and mechanical property of HAZ of 00Cr12NiTi ferrite stainless steel,which is used in manufacture of rail trucks,welded by MAG welding was investigated.
研究了铁道车辆用铁素体不锈钢00Cr12NiTi在MAG焊时,焊接热输入对HAZ的组织及性能的影响。
3.
RE effect and mechanism in ferrite stainless steel have been studied by metallographic analysis,SEM and EDAX.
采用金相、扫描电镜和能谱仪等手段,研究了稀土在430铁素体不锈钢的作用及作用机理,研究结果表明,稀土通过缩小柱状晶区域及细化柱状晶,扩大中心等轴晶区域及细化中心等轴晶,可提高冷轧板薄板成型性能;稀土改善夹杂物形貌、变性夹杂物组分,提高了430铁素体不锈钢冲击性能;稀土促进Cr和Mn元素在氧化层的富集,使氧化层致密,氧化层与基体的粘附性增强,大幅度提高了430铁素体不锈钢抗高温氧化性能。
补充资料:铌铁
铌铁是铌和铁组成的合金。主要的用途是供高温合金添加剂用及不锈钢电焊条和炭素合金钢添加剂用。
(1)用途供炼钢、铸造作添加剂和电焊条合金剂用。
(2)牌号和化学成分见表。铌铁的牌号和化学成分牌号化学成分(质量分数)%)Nb TaTaAlSjCSPWMnSnPbAsSbBiTi≤FeNb7070~800.53.81.5O.04O.030.040.3O.8O.02O.020.01O.01O.OlO.3FeNb60-A60~70O.52.52.0O.050.030.050.21.O0.020.02------------FeNb60-B60~703.033O.3O.1O.31.5---------------------FeNb5050~60O.52.02.5O.05O.030.050.1---------------------FeNb2015~252.O311O.3O.1O.31.0---------------------
注:1.FeNb60-B、FeNb20两个牌号是以铌铁精矿为原料生产的。2.铌铁以块状或粉状供货。块状铌铁最大块重不超过8kg,小于20MM×20mm碎块的数量不得超过总质量的5%。3.粉状铌铁以0.45mm供货,其中---0.098mm的不得超过总质量的30%。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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