其成分特征是碳含量在共析点左右的高碳低锰钢轨钢。
The main characteristics of the rail steel are low manganese and high carbon which content is being closed to eutectoid.
图8表明,在形成缝隙后,不同含氮量的SUS316 L低锰钢其隙间腐蚀率与含氮量之间的关系。
Fig. 8 shows the relationship between crevice corrosion rate and nitrogen content for a low Mn steel, SUS316L, with diverse nitrogen content after forming crevices.
锰是十分有用的金属,如果在钢中加入2.5—3.5%的锰,那么所制得的低锰钢简直脆得象玻璃一样,一敲就碎。
Manganese metal is very useful, if in steel join 2.5-3.5% of manganese, then water-heating low manganese steel simply brittle like glass, as a knock is broken.
结果表明,在相同试验条件下低碳高合金钢的冲击腐蚀磨损性能要优于高锰钢的。
The results show that the resistance of low carbon high alloy steel is better than that of the high manganese steel under the same test condition.
比较两种材料试样在一定时间内的失重变化情况,表明低碳高合金钢的抗冲击腐蚀磨损性能优于高锰钢。
Wear loss of specimens for these two steels during a certain time show that low carbon high alloy steel is much more resistant to corrosive impact abrasion than high manganese steel.
结果表明,在中、低冲击磨料磨损条件下,试验钢的耐磨性优于中碳低合金耐磨钢和高锰钢。
Under lower and medium impact energy, the abrasive wear resistant performance of the steel metioned is higher than that of low alloyed medium carbon wear resistant steel and high manganese cast steel.
通过TMCP工艺实验,研究了终轧温度和卷取温度对低碳锰钢力学性能和微观组织的影响规律。
The effects of processing parameters of TMCP, such as finish rolling temperature and coiling temperature on microstructure and mechanical properties of low CMn steel were studied by TMCP tests.
本文针对高锰钢衬板的损坏原因进行了分析,指出了锰钢材料作为衬板的不适应性,并对低碳低合金钢在管磨机上的试验使用情况作了介绍。
This results in large liner consumption. In this paper the abrasion reason of high-manganese steel liner is analyzed. The result indicates inapplicability of manganese steel to making liner.
分析在热轧低碳含锰钢板上观察到的表面带状组织,讨论了带状组织形成的原因和预防方法。
In this paper, the mechanism of formation of zonal structures in low-carbon alloy steel and three methods for removing them are introduced.
该材料硬度和韧性均较高,抗磨性能好,成本低,是中、低冲击条件下高锰钢的理想替代材料。
This material has the high impact toughness and hardness, the better capability of wearresistance and the lower cost.
该材料硬度和韧性均较高,抗磨性能好,成本低,是中、低冲击条件下高锰钢的理想替代材料。
This material has the high impact toughness and hardness, the better capability of wearresistance and the lower cost.
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