本文用经验电子理论对铬铁体心立方结构无序固溶体进行了分析。
The results of the empirical electron theory of Fe-Cr bcc disordered solid solutions are reported.
对其体心立方结构初态特征晶体和初态液体的电子结构进行了研究。
The electronic structures and characteristic properties of these metals with BCC structures and primary liquids were also studied.
结果表明,在初步的工艺条件下,可以得到分散均匀的体心立方结构纳米y_2o_3颗粒。
Results showed that homogeneous-dispersed hexagonal Y2O3 nano-particles could be prepared under the primary technological conditions.
其中钨颗粒是强度较高的相,体心立方结构的钨颗粒均匀的分布于面心立方结构、较软的基体相当中。
Tungsten grain is one material that has high strength and body-centered cubic structure, and it distributes in the matrix that is soft and has the surface-centered cubic structure.
论证了贝氏体铁素体在含碳量小于0.3%时为体心立方结构,碳量大于0.3%后呈体心正方结构。
The bainitic ferrite is BCC lattice when the carbon content in it is below 0.3% and it is BCT lattice when the carbon content is over 0.3%.
相对密度相同时,体心立方结构多孔材料的抗压强度与弹性模量分别比简单立方结构提高了11.2%和2.2%。
Under the same relative density, body-centered cubic hollow sphere foams were 11.2% and 2.2% larger than simple cubic lattice in stress and modulus.
铁需要从面心立方体奥氏体结构转变为体心立方体铁素体结构,但是铁素体只能容纳固溶体状态的0.02%的碳。
The iron wants to change from the FCC austenite structure to the BCC ferrite structure, but the ferrite can only contain 0.02% carbon in solid solution.
提出了A位离子有序的体心立方超结构模型。
An ordered model with body centered cubic superstructure on a site cations was proposed.
提出了A位离子有序的体心立方超结构模型。
An ordered model with body centered cubic superstructure on a site cations was proposed.
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