1) chrome-copper cast iron
铬铜铸铁
1.
This article has made an analysis and discussion of typical production data in production of heavy machinery antifriction parts by using chrome-copper cast iron instead of molybdenum-copper cast iron on the condition of cupola smelting.
对在冲天炉熔炼条件下,应用铬铜铸铁代替钼铜铸铁生产重型机械减摩件的典型生产数据进行了分析与讨论,并简要总结了控制铬铜铸铁力学性能的实践经验,以及钼铜、铬铜和铬镍铸铁的特点与选用原则。
2) Cr-Cu micro-alloyed medium phosphorus grey iron
铬铜中磷灰铸铁
1.
needle-like microstructure should be prevented to appear in matrix and adopt Cr-Cu micro-alloyed medium phosphorus grey iron and lower C equivalent.
探讨了铬铜中磷灰铸铁活塞环(材料代号STD)的铸态组织分布规律,进而研究了STD活塞环铸态组织对活塞环的力学性能和摩擦磨损的影响,从而提出改进STD活塞环铸态组织的热稳定性和磨损性能的途径:要提高活塞环的热稳定性,必须防止基体组织出现针状组织;采用Cr和Cu微合金化中磷灰铸铁活塞环和降低活塞环的碳当量可提高活塞环的耐磨性。
3) Cr-Cu cast iron piston ring
铬铜铸铁活塞环
4) Cr-Mn-Cu alloy white cast iron
铬锰铜合金白口铸铁
1.
The wear resistance of Cr-Mn-Cu alloy white cast iron after heat treatment was studied and compared with that of as-cast Cr-Mn-Cu alloy white cast iron,the wear failure mechanism and microstructure on the wear end surface and nonwear end surface were analyzed.
以铬锰铜合金白口铸铁的铸态材料为对比材料,考察了热处理后的铬锰铜合金白口铸铁材料的耐磨性能,对试验材料的磨损失效机理和磨损端面与无磨损端面的金相组织进行了分析。
2.
The wearing resistance,microstructure,worn surface morphology and hardness change in wearing end-face and non-wearing end-face of Cr-Mn-Cu alloy white cast iron were tested and analyzed.
对铬锰铜合金白口铸铁的耐磨性、无磨损端面及磨损端面的微观组织、磨损形貌及硬度进行了试验和分析。
3.
The erosive-wear resistance of heat treated Cr-Mn-Cu alloy white cast iron was investigated compared with that of as-cast one, and the impact fractures,the erosive-wear resistant failure mechanism and the section metallurgical structure of the test materials were analyzed.
以铸态铬锰铜合金白口铸铁为对比材料,考察了热处理后的铬锰铜合金白口铸铁的抗冲蚀磨损性能,并对试验材料的冲击断口形貌、抗冲蚀磨损失效机理和冲蚀磨损横切面的金相组织进行了分析。
5) Chrome-plating
铬钼铸铁
6) high chromium cast iron
高铬铸铁
1.
Effects of compound modification on microstructure of hypereutectic high chromium cast iron;
复合变质对过共晶高铬铸铁凝固组织的影响
2.
Characteristic anlysis and material selection of high chromium cast iron for transflux parts of slurry pump;
渣浆泵过流件用高铬铸铁材料特性分析与选择
3.
A study on hardening behavior for high chromium cast iron 16Cr2MolCu under sub-critical treatment;
16Cr2Mo1Cu高铬铸铁在亚临界处理中硬化行为研究
补充资料:高铬铸铁
分子式:
CAS号:
性质: 铬含量高的耐蚀耐热白口铸铁。依铬含量的不同,可分为铬含量26%~30%和32%~36%两类铸铁。在1000℃以上的氧化性气氛中,高铬耐热铸铁仍有好的抗氧化能力。有良好的强度以及较好的机械加工性能,但韧性较低,不宜用于温度急变场合。常用来制作加热炉炉底板、炉子传送链的构件等。
CAS号:
性质: 铬含量高的耐蚀耐热白口铸铁。依铬含量的不同,可分为铬含量26%~30%和32%~36%两类铸铁。在1000℃以上的氧化性气氛中,高铬耐热铸铁仍有好的抗氧化能力。有良好的强度以及较好的机械加工性能,但韧性较低,不宜用于温度急变场合。常用来制作加热炉炉底板、炉子传送链的构件等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条