1) 60Si2Mn spring steel
60Si2Mn弹簧钢
1.
A CCT curve of 60Si2Mn spring steel was tested with Gleeble-1500 thermomechanical simulator,the effects of finishing rolling temperature and cooling rate on microstructure,pearlite amount,interlamellar pearlite spacing,mean grain size and mechanical property were studied.
利用Gleeble1500热模拟试验机测定了60Si2Mn弹簧钢的CCT曲线,研究了终轧温度、冷却速度对该钢种显微组织、珠光体量、珠光体片层间距、平均晶粒尺寸以及力学性能的影响。
2.
The semisolid sample of 60Si2Mn spring steel has been produced,and the change of composition and microstructures of cast ingot under electromagnetic stirring were studied.
利用自制设备制备了60Si2Mn弹簧钢半固态试样,研究了电磁搅拌条件下60Si2Mn弹簧钢铸锭成分和组织层的变化。
3.
Two semi-solid specimens of 60Si2Mn spring steel and Cr5Mo2V tool steel were prepared by electromagnetic stirring,The formation mechanism of the two semi-solid steels was studied.
用电磁搅拌法制备了60Si2Mn弹簧钢、Cr5Mo2V工具钢两种材料的半固态试样,对两种半固态试样的形成机制进行了探讨,分析表明,电磁搅拌可以影响金属液的温度场和溶质场,破坏枝晶生长条件,金属液中的先析相相互碰撞,使金属液在凝固过程中形成等轴晶,但不同金属材料的半固态组织形成机制存在差异。
2) 60Si2Mn vechicle plate spring
60Si2Mn板弹簧钢
3) 60Si2Mn leaf spring
钢板弹簧60Si2Mn
4) 60Si2Mn spring flat steel
60Si2Mn弹簧扁钢
1.
During the cutting process,60Si2Mn spring flat steel had the avalanche problem.
60Si2Mn弹簧扁钢在下料过程中发生崩断现象,采用化学成分分析、显微组织分析、力学性能试验等方法对弹簧扁钢的断裂原因进行了分析。
5) 60Si2Mn steel
60Si2Mn钢
1.
The experiment scheme was designed by using orthogonal regression to analyze the influence of original structure and hardening heat on the property and mechanics of 60Si2Mn steel and discuss these problems, which were content and shape of martensite and ferrolites, austenite crystal grain, transition character of non-homogeneous after intercritical hardening.
采用正交回归方法设计实验方案,研究了原始组织和淬火温度对60Si2Mn钢亚温淬火组织性能的影响,探讨了其机理。
6) 60Si2Mn plate spring
60Si2Mn板簧
1.
The result shows that the deficiency of high temperature cooling rate of N32 mechanical oil is the reason of it's unsuitable for the quenching of 60Si2Mn plate spring which effective depth is deeper than 12mm.
实验结果表明,N32机油的高温冷却速度不足是其不适于有效厚度大于12mm的60Si2Mn板簧淬火的原因。
补充资料:meckosorb Si60
分子式:
CAS号:
性质:白色,细粉。为不规则形多孔硅胶,平均粒度5μm、10μm、20μm和30μm。孔容0.75ml/R,比表面积500m2/R,平均孔径6nm,10%混悬液pH值7。用于吸收色谱分离非极性化合物。
CAS号:
性质:白色,细粉。为不规则形多孔硅胶,平均粒度5μm、10μm、20μm和30μm。孔容0.75ml/R,比表面积500m2/R,平均孔径6nm,10%混悬液pH值7。用于吸收色谱分离非极性化合物。
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参考词条