2) Low carbon silicon manganese
低碳锰硅钢
3) low carbon manganese steel
低碳锰钢
1.
Influences of deformation parameters on microstructures and mechanical properties of low carbon manganese steel
变形制度对低碳锰钢组织性能的影响
2.
Controlled rolling and controlled cooling experiments under various technology parameters have been carried out on low carbon manganese steels.
在实验室对低碳锰钢进行了控轧控冷试验。
3.
Thermo-mechanical controlled process (TMCP) experiments with finish-rolling temperatures (FRT) higher than Ar3 and different coiling temperatures (CT) have been carried out on a low carbon manganese steel.
对一种低碳锰钢进行了终轧温度高于Ar3卷取温度的不同控轧控冷处理。
4) low carbon ferromanganese
低碳锰铁
1.
To reduce carbon content, taking the following measures such as increasing silicon conlent([Si]%>25%) in silicomanganese, reducing outside carbon content,operating in low basicity in smelting low carbon ferromanganese etc.
为降低碳含量,在低碳锰铁生产过程中,通过提高锰硅合金中硅含量([Si]%>25%),减少外部增碳以及采用低碱度操作等措施,得到了理想的低碳锰铁生产工艺。
5) carbon manganese steel
低锰碳钢
补充资料:低锗锰铜合金
分子式:
CAS号:
性质: 含锗较低的锗锰铜合金。成分为锗0.5%~2%,锰8%~10%,其他20%,铜余量。电阻率35×10-8Ω·m。平均电阻温度系数±3×10-6℃-1(20℃)。平均对铜热电动势≤1.0μV/℃。密度8.6g/cm3。熔点920℃。抗拉强度392~441MPa。延伸率2%。
CAS号:
性质: 含锗较低的锗锰铜合金。成分为锗0.5%~2%,锰8%~10%,其他20%,铜余量。电阻率35×10-8Ω·m。平均电阻温度系数±3×10-6℃-1(20℃)。平均对铜热电动势≤1.0μV/℃。密度8.6g/cm3。熔点920℃。抗拉强度392~441MPa。延伸率2%。
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参考词条