1) 60Si2MnA
60Si2MnA
1.
Research on Rolling Process of 60Si2MnA Wire Rod;
60Si2MnA盘条轧制工艺研究
2.
Numerical Simulation for Effect of Rolling Process Parameters on Static Recrystallization of Spring Steel 60Si2MnA;
轧制工艺参数对60Si2MnA钢静态再结晶影响的数值模拟
3.
Description of Process Quality of 60Si2MnA Sample for Spring Bar Used for Dedicated Passenger Line;
客运专线弹条用钢60Si2MnA样品工艺质量情况
2) 60Si2MnA steel
60Si2MnA钢
1.
After trial testing on 60Si2MnA steel and 0Cr17Ni14Cu4Nb steel with different heat treatment, a method to show actual grain size of the materials is achieved.
对不同热处理状态下的60Si2MnA钢和 0Cr17Ni14Cu4Nb钢试样进行了试验和摸索,获得了这两种材料在常规热处理状态下的实际晶粒度的显示方法,即 60Si2MnA钢用饱和苦味酸+3%~5%洗涤剂+新洁尔灭水溶液侵蚀;0Cr17Ni14CuNb钢用高锰酸钾(0。
3) 60Si2MnA spring steel
60Si2MnA弹簧钢
1.
Heat treatment optimization of high-quality 60Si2MnA spring steel;
高品质60Si2MnA弹簧钢的热处理工艺优化
4) 60Si2MnA spring steel wire rod
60Si2MnA线材
1.
The effect of controlled rolling and cooling process parameters on the precipitated pearlite of 60Si2MnA spring steel wire rods is carefully investigated.
研究了60Si2MnA线材控轧控冷工艺参数对所析出的珠光体的影响。
5) 60Si2Mn
60Si2Mn
1.
Research of Decarburization on 60Si2Mn Spring Steel;
60Si2Mn弹簧钢表面脱碳的研究
2.
Optimization of Heat Treatment Process on 60Si2Mn Vehicle Plate Springs;
60Si2Mn钢汽车板簧热处理工艺优化研究
3.
RESEARCH ON THE SEMI-SOLID SLURRY PREPARATION OF 60Si2Mn SPRING STEEL;
60Si2Mn弹簧钢半固态浆料的制备研究
6) 60Si2Mn steel
60Si2Mn钢
参考词条
Spring Steel 60Si2Mn(A)
60Si2Mn spring steel
60Si2Mn plate spring
60Si2Mn vechicle plate spring
60Si2Mn leaf spring
zero time holdingquenching procedure of 60Si2Mn steel
色素类
补充资料:MNA
分子式:
CAS号:
性质:橙黄色针状晶体,密度1.35×103kg/m3,熔点151.84℃。溶于丙酮、乙醇、醋酸乙酯等,不溶于水。差热分析152.32℃处最大吸收峰,272.43℃开始放热,288.8℃处最大放热峰;燃烧热2.54×107J/kg(量热弹法)。N-甲基-4-硝基苯胺有四种合成方法:①在碱性条件下对硝基氯苯与N-甲基乙酰胺一起回流制得MNA;②以水为介质对硝基氟苯与甲胺在高压釜中加热制得MNA;③以浓硫酸为介质对硝基苯胺与过量甲醛进行还原烷基化反应制得MNA;④以水为介质紫外光下对硝基苯,甲醚与甲胺反应制得MNA。MNA用于发射药、交联改性双基药、硝酸酯增塑聚醚推进剂中作安定剂。
CAS号:
性质:橙黄色针状晶体,密度1.35×103kg/m3,熔点151.84℃。溶于丙酮、乙醇、醋酸乙酯等,不溶于水。差热分析152.32℃处最大吸收峰,272.43℃开始放热,288.8℃处最大放热峰;燃烧热2.54×107J/kg(量热弹法)。N-甲基-4-硝基苯胺有四种合成方法:①在碱性条件下对硝基氯苯与N-甲基乙酰胺一起回流制得MNA;②以水为介质对硝基氟苯与甲胺在高压釜中加热制得MNA;③以浓硫酸为介质对硝基苯胺与过量甲醛进行还原烷基化反应制得MNA;④以水为介质紫外光下对硝基苯,甲醚与甲胺反应制得MNA。MNA用于发射药、交联改性双基药、硝酸酯增塑聚醚推进剂中作安定剂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。