电导率的增加是含钪锆过饱和固溶体的分解形成弥散型的复相结构。
The increasing of conductivity is the decomposition of the supersaturate solid solution contain Sc and Zr forming dispersion complex phase.
其结论印证了“过饱和固溶体分解反应的普遍规律”中的部分内容。
Experimental results have testified partial content for the universal rule of decomposition reaction of supersaturated solid solution.
时效初期,过饱和固溶体分解形成原子偏聚区,电子散射增加,合金电导率下降。
At the beginning of ageing, GP zone was formed with the decomposition of the supersaturated solid solution, electron scattering increased, the electrical conductivity decreased.
综述了在室温强塑性变形过程中发现的新现象:第二相颗粒的回溶,合金基体重新形成过饱和固溶体。
A new phenomenon of re-dissolution of second phases and re-formation of supersaturate solid solution found in processes of severe plastic deformation was summarized.
现在,运用这一技术已成功制备出过饱和固溶体、非晶、金属间化合物、纳米晶材料和超导材料、磁性材料等。
Up to now, the technology has been used to prepare supersaturated solid solution, amorphous alloys, intermetallic compound, nanocrystalline, magnetism materials, superconductor materials, and etc.
具有纳米晶、过饱和固溶体等亚稳态结构的材料具有独特的物理、化学及机械性能,因而在诸多领域获得了广泛的应用。
The materials with metastable structures, e. G., nanostructure and supersaturated solid solutions, have unique physic, chemical and mechanical properties, and get extensive application in many fields.
激光上釉是通过细化铸造组织、减少偏析及形成高度过饱和固溶体等亚稳定相乃至非晶态而提高了材料的耐磨性、抗氧化性和抗腐蚀性能。
Laser glazing gives potential to enhance wear-resistance by refining grain structure, reducing segregation, producing supersaturation solid solution body and metastable or amorphous phases.
激光上釉是通过细化铸造组织、减少偏析及形成高度过饱和固溶体等亚稳定相乃至非晶态而提高了材料的耐磨性、抗氧化性和抗腐蚀性能。
Laser glazing gives potential to enhance wear-resistance by refining grain structure, reducing segregation, producing supersaturation solid solution body and metastable or amorphous phases.
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