3) super-low carbon V-N microalloyed steels
超低碳微合金V-N钢
4) low carbon microalloyed steel
低碳微合金钢
1.
Effect of normalization temperature on Z-direction property of low carbon microalloyed steel
正火温度对低碳微合金钢Z向性能的影响
2.
Study on corrosion behavior of low carbon microalloyed steels during outdoor intermittent spraying test
低碳微合金钢户外喷淋试验中耐蚀行为研究
3.
The evolution of microstructures and hardness of low carbon microalloyed steel plate during tempering at 650 ℃ has been investigated.
研究了经过弛豫-析出控制相变技术(RPC技术)生产的低碳微合金钢板在650℃回火过程中组织与性能的演变,同时与经过930℃保温1 h后再加热淬火(RQ)的钢板进行了对比。
5) low-carbon microalloyed steel
低碳微合金钢
1.
Study on strengthening and toughening of low-carbon microalloyed steel added with micron-grade ZrC particles
添加微米级ZrC颗粒的低碳微合金钢强韧性研究
2.
The microstructure characteristic and its forming conditions of the low-carbon microalloyed steels were analysed,which were produced by controlled rolling and cooling in Wuyang Iron and Steel Co Ltd.
对舞钢采用控轧控冷工艺生产的低碳微合金钢的组织形貌及其形成条件进行了分析,认为组织细化是保证低碳微合金钢良好强韧性配合的重要因素。
3.
1% volume fraction were added into low-carbon microalloyed steel.
真空条件下,在低碳微合金钢中添加体积分数为1。
6) niobium microalloyed low carbon steel
铌微合金低碳钢
1.
The continuous cooling transformation and isothermal transformation of niobium microalloyed low carbon steel after deformation were investigated by using a Gleeble-1500 thermomechanical simulator.
利用Gleeble-1500热力模拟实验机研究了铌微合金低碳钢连续冷却过程及等温过程贝氏体相变,分析了热变形参数对贝氏体相变的影响规律。
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