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1)  0.06C-0.31Mo Microalloying Pipeline Steel
0.06C-0.31Mo微合金化管线钢
2)  micro-alloyed peline steel
微合金管线钢
3)  low carbon and low alloy pipeline steel
低碳微合金管线钢
1.
The undercooled austenite phase transformation temperature of low carbon and low alloy pipeline steel with different Nb content was determined by Gleeble-1500 thermo-mechanical simulator at different cooling speeds.
采用Gleeble-1500D型热模拟机,测定了不同Nb含量的低碳微合金管线钢在不同冷却速度下,过冷奥氏体连续冷却相变点,分析观察了显微组织,测定了其显微硬度。
4)  microalloy steel
微合金化钢
1.
This paper deals with the precipitate changes in medium - carbon vanadium microalloy steel during the isothermal transformation at various temperatures and the continuous cooling transformation in different cooling velocity.
运用电子显微分析方法着重分析了中碳含V微合金化钢在奥氏体化后不同等温温度下和不同冷却速度下沉淀相的析出规律。
5)  micro-alloyed steel
微合金化钢
1.
Study on kinetics of phase transformation in the process of continuous cooling for Mo bearing low carbon micro-alloyed steel;
含钼低碳微合金化钢连续冷却过程相变动力学研究
6)  Microalloyed Steel
微合金化钢
1.
This article reviews the latest development of advanced steel technologies, including microalloyed steel, ultra-fine grained steel, nitrogen alloyed stainless steel, quantitative process modeling and steel database technology.
从钢铁材料学科的理论和技术发展角度出发,结合市场发展的需求,论述了微合金化钢、超细晶粒钢、氮合金化不锈钢、钢材组织性能预报和材料信息化技术等先进钢铁材料的技术进展。
2.
The experimental results show that the high temperature stress method can be used to determine the precipitation strengthening effect in microalloyed steels gualitatively.
应用高温应力法测定了V-Nb微合金化钢(14SiMnVNbRE)在不同冷却速率下的沉淀强化效应,结果表明,应用高温应力法可以定性地测定微合金化钢的沉淀强化效应。
补充资料:管线钢

pipelinesteel:制备管道、线材用的钢。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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