1) AlZnMgCu phase
初生AlZnMgCu相
1.
The AlZnMgCu phase dissolves slowly during solution heat treatment while AlZnMgCuFeTi phase does not dissolve.
结果表明:合金固溶时,粗大的初生AlZnMgCu相溶解缓慢,并逐渐球化;而初生AlZnMgCuFeTi相几乎不溶解。
2) Primary Phase
初生相
1.
Evolution of Primary Phase in A357 Semi-solid Aluminum Alloy During Reheating and Forming Process;
A357半固态初生相在二次加热和成形过程中的演变行为
2.
Correlation between crystallization kinetics of amorphous alloys and primary phases during crystallization;
非晶合金的晶化动力学与初生相的内在联系
3.
Influence of RE Element Y on Morphology of Primary Phase in A356 Aluminum Alloy;
Y对A356铝合金半固态初生相形貌的影响
3) primary α phase
初生α相
1.
Rheological behavior of semisolid A356 alloy with different morphology of primary α phases;
液固温区不同初生α相形态A356合金的流变行为
2.
The crack propagation behavior of primary α phase under tension and cyclic load has been observed in-situ by SEM for near-α type TA15 titanium alloy.
利用带载荷台的扫描电镜原位观察了近α型钛合金TA15中初生α相在单向拉伸和循环交变载荷下裂纹的扩展行为 ,结果表明 :单向拉伸时 ,由于初生α相强度高于基体 β转变组织 ,裂纹遇到初生α相时一般不能穿过而是绕过 ;而在交变载荷下 ,由于基体 β转变组织产生循环硬化 ,其强度水平与初生α相相当 ,裂纹遇到初生α相时可直接贯穿 ,并沿与应力垂直的水平方向扩展。
3.
It is shown that the cause resulting in the machining abnormality is coarse strip-shaped primary α phase.
针对钛合金TC4封装壳体加工异常的现象,从壳体的加工工艺过程、钛合金热轧板材化学成分、金相组织等方面进行了详细分析,判定壳体加工异常的原因在于材料中呈粗大长条状分布的初生α相,并分析了钛合金热轧板材中产生粗大长条状初生α相的原因。
4) primary Al_3Fe phase
初生Al3Fe相
1.
The effect of Mg on the morphology of primary Al_3Fe phase in hypereutectic Al-10%Fe casting alloy was investigated.
研究了Mg元素对铸造Al-10%Fe过共晶合金初生Al3Fe相形态的影响。
2.
The influence of thermal rate treatment on the mechanical property of Al-5%Fe alloy and the morphology of primary Al_3Fe phase was studied.
研究了热速处理工艺对Al 5%Fe合金力学性能和初生Al3Fe相形貌的影响。
5) primary Al3Pe phase
初生Al_3Fe相
6) primary γphase
初生γ相
补充资料:初生不净
【初生不净】
谓十月满足,头向产门,流血淋漓,腥秽狼籍,故名初生不净。
谓十月满足,头向产门,流血淋漓,腥秽狼籍,故名初生不净。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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