...s for non-quenched/tempered seamless oil-well tubes;V-Ti-N微合金非调质无缝油井管钢中碳氮化物的热力学计算 carbo-nitride碳氮化物
基于10个网页-相关网页
M_(23)C_6 carbide with size of 0.2μm and nanosized MX carbonitride precipitates distribute along grain and lath boundaries and within laths in the steel with 0.020wt. %C and 0.005wt.
含0.020wt.%C-0.005 wt.%N的9Cr钢中在原奥氏体晶界、马氏体板条界和基体上分别分布着0.2μm左右的M_(23)C_6型碳化物和纳米尺寸的MX型碳氮化物;随着碳含量的降低和氮含量的增加,纳米尺寸析出相的数量增多。
参考来源 - 9%Cr铁素体/马氏体耐热钢的组织演化和强度退化研究·2,447,543篇论文数据,部分数据来源于NoteExpress
本文在实验的基础上,用热力学方法来分析讨论微合金碳氮化物复合相的形成机制。
On the basis of experiment, the forming mechanism of complex microalloyingcarbonitride has been discussed by using of thermodynamic method.
文章对采用高、中和常压的合成方法制取结晶碳氮化物的可能性实验研究进行了综述。
A summary was made on the experimental research on the possibility of preparing carbon nitride crystal with high pressure, moderate pressure and conventional pressure synthetic method.
在微合金化钢的强化机理中,第二相,主要是碳氮化物的析出强化是最重要的影响因素。
Among the strengthening mechanisms, precipitation strengthening of the second-phase, mostly carbonide and nitrides, was the brief mechanism indeed.
应用推荐