1) microalloy
微合金
1.
Based on Cr microalloying,the influence of V、Nb、Ti and their interactions on casting blank macrostructure and segregation were researched.
以铬微合金化为基础,主要研究钒、铌、钛及其交互作用对高碳铸坯宏观组织、凝固偏析的影响,为微合金元素应用于高碳钢提供实验依据。
2.
In this paper, analysis of influnce of addition level of aluminum and microalloy has been given throught the description of apprence of inciusion in Aluminum Killed steel.
钢中夹杂物形态与分布,对钢的最终使用性能有重要影响,本文通过对铝镇静钢中夹杂物分布形态的描述,分析了铝及微合金加入量对其性能的影响,提出了改善夹杂物分布形态的工艺方法。
3.
Ta-rich microalloys have been prepared directly on G Cr15 steel substrates by means of dynamic ion-beam mixing technique, combining Ar~+ ion sputtering with Xe~- ion bombarding simutaneously.
用Ar~-离子束溅时沉积制膜与高能Xe~-离子轰击相结合的离子束动态混合技术,直接在轴承钢GCr15基体上制备出富Ta微合金。
2) micro-alloy
微合金
1.
The development and application of non-quenched and non-tempered micro-alloy steel are introduced.
介绍了微合金非调质钢的发展及其应用现状,开发微合金非调质钢符合钢铁产业发展政策和石钢公司的“边缘-精进”战略。
2.
By compressing cylinder samples in Gleeble-1500 thermal analog test machine,the change rules of the deformation resistance of micro-alloy low-carbon bainitic steel under different deformation conditions are studied.
在Gleeble-1500热模拟试验机上采用圆柱试样压缩的方法,研究了微合金高强度低碳贝氏体钢在不同变形条件下变形抗力的变化规律。
3.
This article presents research on rolling technology of micro-alloyed high carbon hard wire at JISCO.
介绍了酒钢微合金高碳钢硬线轧制工艺研究。
3) micro alloy
微合金
1.
The process about deoxidization,alloying,continuous casting and rolling during steel making was analyzed and the industrial experiment adopting Ti micro alloying combined with slow cooling in heat-insulated pit was operated basing on design of chemical components for improving the quality of steel.
为提高三级锚链钢质量,设计该钢种化学成份,优化炼钢过程的脱氧、合金化及连铸工艺,结合钛微合金化及铸坯进保温坑缓慢冷却的工艺进行工业试验。
2.
In this paper we introduce the study , development and industrial experiment of micro alloy - Nb pipeline steel.
本文介绍了邯钢薄板坯连铸连轧工艺铌微合金管线钢的研制、开发和工业性生产试验。
4) microalloyed steel
微合金
1.
Exploitation of BS G460 microalloyed steel large norms reinforced bas;
BS G460大规格微合金化钢筋的开发
5) Au-base microalloy
金基微合金
6) micro-alloyed steel
微合金钢
1.
Three dimensional atom probe observation of G.P.zone in micro-alloyed steel;
三维原子探针对微合金钢中G.P.区的观测
2.
Microstructure and properties of dissimilar weldment between duplex stainless steel and micro-alloyed steel;
双相不锈钢与微合金钢异金属焊接接头的组织及性能
3.
Precipitation behavior of inclusions-induced formation nucleation of intragranular ferrite in micro-alloyed steel;
微合金钢中夹杂物诱导晶内铁素体析出行为
补充资料:微合金钢
分子式:
CAS号:
性质:微合金化的高强度低合金钢。它是在普通软钢和普通高强度低合金钢基体化学成分中添加了微量合金元素(主要是强烈的碳化物形成元素,如Nb、V、Ti、A1等)的钢,合金元素的添加量不多于0.20%。添加微量合金元素后,使钢的一种或几种性能得到明显的变化。典型的微合金钢有15MnVN和06MnNb。微合金钢中含有一种或几种微合金元素,其含量大约在0.01%~0.20%之间。微合金钢由于屈服强度高、、韧性好、焊接性和耐大气腐蚀性好,可用于大型桥梁建筑,制造各类车辆的冲压构件、安全构件、抗疲劳零件及焊接件,它也是锅炉、高压容器、输油和输气管线,以及工业和民用建筑的理想材料。
CAS号:
性质:微合金化的高强度低合金钢。它是在普通软钢和普通高强度低合金钢基体化学成分中添加了微量合金元素(主要是强烈的碳化物形成元素,如Nb、V、Ti、A1等)的钢,合金元素的添加量不多于0.20%。添加微量合金元素后,使钢的一种或几种性能得到明显的变化。典型的微合金钢有15MnVN和06MnNb。微合金钢中含有一种或几种微合金元素,其含量大约在0.01%~0.20%之间。微合金钢由于屈服强度高、、韧性好、焊接性和耐大气腐蚀性好,可用于大型桥梁建筑,制造各类车辆的冲压构件、安全构件、抗疲劳零件及焊接件,它也是锅炉、高压容器、输油和输气管线,以及工业和民用建筑的理想材料。
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