1) low carbon boron steel
低碳硼钢
1.
The effect of tiny amount of Titamium on the notch toughness of low carbon boron steel was investigated.
研究了微量钛对低碳硼钢冲击韧性的影响。
2.
The influences of B content and Nb,V micro-alloying on the impact toughness of low carbon boron steel were investigated by impact tests of low carbon boron steels with different boron contents and of Nb,V micro-alloyed low carbon boron steel.
通过对不同B含量的低碳硼钢和Nb、V微合金化低碳硼钢的冲击实验,研究了B含量及Nb、V微合金化对低碳硼钢冲击性能的影响。
2) High-Carbon boron steel
高碳硼钢
1.
The high-carbon boron steel was treated by compound rare earth modification,the impact abrasive wear properties of modified high-carbon boron steel was studied and compared with high chromium cast iron(Cr26)in the dynamic load abrasive tester MLD-10.
对高碳硼钢进行稀土变质处理,在MLD-10动载磨料磨损试验机上研究了变质高碳硼钢的冲击磨料磨损性能,并与高铬铸铁(Cr26)进行了比较。
3) low carbon carburizing steel
低碳渗碳钢
4) mild steel
低碳钢
1.
Effect of longitudinal magnetic field on microstructure and properties of MIG weld joint of mild steel;
纵向磁场对低碳钢MIG焊焊缝组织及性能的影响
2.
Study of weldability of activating flux for A-TIG welding of mild steel;
低碳钢A-TIG焊活性剂的焊接性研究
3.
Study activating flux for mild steel;
低碳钢A-TIG焊的活性剂研制
5) Low carbon steel
低碳钢
1.
Dissipative structures of inner cracks in low carbon steel during thermal healing;
低碳钢内裂纹热愈合时的耗散结构
2.
Study on Low Carbon Steel Deoxidized by Magnesium Alloy;
低碳钢镁合金脱氧的研究
3.
Analysis on metallurgical effect of low carbon steel in No.1 top-bottom combined blowing converter in Liangang;
涟钢1号顶底复吹转炉低碳钢冶金效果分析
6) 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。
补充资料:渗硼钢
分子式:
CAS号:
性质:经过渗硼处理的钢。渗硼主要是为了提高钢的硬度、耐磨性和耐蚀性。渗硼钢在滑动摩擦、磨料磨损和流体磨料磨损、微动腐蚀磨损条件下,以及在低温和高温的真空中和各种腐蚀介质中,均具有很高的耐磨性。以45钢粉为例,渗硼处理后在干滑动摩擦条件下的耐磨性比渗碳处理的45钢高3~5倍,比氰化钢高2~7倍,比淬火和低温回火钢高3倍。渗硼后,钢在各种稀酸水溶液中的耐蚀性大为提高,在沸水和碱液中的耐蚀性也显著提高。渗硼钢已广泛用于机器零件、工具和模具等方面。
CAS号:
性质:经过渗硼处理的钢。渗硼主要是为了提高钢的硬度、耐磨性和耐蚀性。渗硼钢在滑动摩擦、磨料磨损和流体磨料磨损、微动腐蚀磨损条件下,以及在低温和高温的真空中和各种腐蚀介质中,均具有很高的耐磨性。以45钢粉为例,渗硼处理后在干滑动摩擦条件下的耐磨性比渗碳处理的45钢高3~5倍,比氰化钢高2~7倍,比淬火和低温回火钢高3倍。渗硼后,钢在各种稀酸水溶液中的耐蚀性大为提高,在沸水和碱液中的耐蚀性也显著提高。渗硼钢已广泛用于机器零件、工具和模具等方面。
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