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.
在薄板坯连铸连轧工艺的连铸坯及热轧板中均观察到了由相间沉淀方式形成的碳氮化物粒子列。
Particle arrays formed through the interphase precipitation are observed either in the slabs or in the hot strips.
通过断口的微观扫描及夹杂物定性分析发现,断口未出现脆性断裂的特征以及夹杂物分析未发现有氮化物和碳氮化物存在。
The microscopic scanning of the fracture shows that the fracture is not a brittle one, and the qualitative analysis of the inclusions points to the absence of nitrides and carbonitrides in the incl...
碳氮化物析出相有弥散析出、相间析出、纤维状析出及等温转变温度较低时,碳氮化物在铁素体晶内沿位错处弥散析出等形态。
It has been found that interphase precipitation, fibrous precipitation, precipitation on dislocation, precipitation from supersaturated ferrite at lower isothermal transformed temperature.
目前,正丁烷脱氢异构催化剂可以分为两类,过渡金属双功能催化剂和过渡金属氮化物、碳化物和碳氧化物催化剂。
The catalysts on studying can divide into two kinds: the transition metal bifunctional catalysts and the nitride, carbide and oxycarbide catalysts of transition metals.
目前,正丁烷脱氢异构催化剂可以分为两类,过渡金属双功能催化剂和过渡金属氮化物、碳化物和碳氧化物催化剂。
The catalysts on studying can divide into two kinds: the transition metal bifunctional catalysts and the nitride, carbide and oxycarbide catalysts of transition metals.
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