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1)  LC/ULC steel
低碳/超低碳钢
2)  ULC steel
超低碳钢
1.
Study on the optimum process of refining ULC steel by RH degasser
RH冶炼超低碳钢的最优工艺研究
2.
Inclusions and total oxygen content in ultra-low carbon(ULC) steel were studied for the control of cluster inclusions in ULC steel.
为控制超低碳钢中的簇状夹杂物,对超低碳钢中的夹杂物和与全氧含量的关系进行了研究。
3.
The polarization curve of the ULC steel with titanium and niobium was measured to determine the suitable electrolytic parameters for preparation of TEM carbon replica samples.
测定了一种复合添加钛、铌超低碳钢的极化曲线,选用合适的电流密度和电解时间以碳复型方法萃取钢中的析出相制备透射电镜观察用样品。
3)  ultra-low-carbon steel
超低碳钢
1.
Development on ultra-low-carbon steel mold powder of Baosteel;
宝钢超低碳钢保护渣的开发
2.
Effect of Mould Shielded Fluxes on Concasting Billet Surface Carbonization of Ultra-Low-Carbon Steel;
结晶器保护渣对超低碳钢连铸坯表面渗碳的影响
3.
Composite Treatment of Concasting Mold Flux for Ultra-Low-Carbon Steel;
超低碳钢连铸结晶器用保护渣的超细复合处理
4)  Ultra Low Carbon Steel
超低碳钢
1.
Comparison of different flow stress models for ultra low carbon steels during warm deformation
超低碳钢低温变形流动应力模型的比较
2.
To address the characteristics of deformation behavior and flowing stress of ultra low carbon steel in the hot-strip mill processing,a set of simulations were performed with THERMECMASTOR-Z thermo dynamic simulator.
采用 THERMECMASTOR-Z 热/力模拟试验机研究了超低碳钢在铁素体区轧制过程的形变特征和流变应力,采用双段压缩试验方法研究了不同变形温度、道次间隔时间和变形程度对钢的流变应力和组织的影响。
3.
The reason and mathematic analysis for carbon pick up from mold flux have been investigated in ultra low carbon steel.
探讨了保护渣引起超低碳钢增碳的机理并进行了数学分析。
5)  ultra-low carbon steel
超低碳钢
1.
Metallurgical effect test of tundish flux for ultra-low carbon steel;
超低碳钢中间包覆盖剂的冶金效果试验
2.
Influence of BN on ultra-low carbon steel continuous casting mold fluxes properties;
BN对超低碳钢连铸保护渣性能的影响
3.
Process optimization for production of ultra-low carbon steel by RH-MFB
RH-MFB生产超低碳钢的工艺优化
6)  ultra low carbon IF steel
超低碳IF钢
补充资料:超低碳不锈钢
分子式:
CAS号:

性质:含碳量低于0.03%的不锈钢,一般指奥氏体不锈钢。不锈钢中的碳含量降低到0.03%以下,即超低碳化,能有效地避免不锈钢出现贫铬区和防止晶间腐蚀敏感性。碳在铁素体不锈钢中的危害更加严重,当大约从927℃;以上快冷时就会沿晶界析出铬的碳化物,形成晶界贫铬区,而在腐蚀环境中容易发生晶间腐蚀,为了避免晶间腐蚀就要求碳含量必须低于0.01%。采用氩氧脱碳精炼法和真空氧脱碳精炼法,都能生产超低碳不锈钢。

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