1) Heat resisting powder aluminum allo (HRPAA)
粉末高温铝合金
3) P/M superalloy
粉末高温合金
1.
Thermodynamic calculation of equilibrium phases for P/M superalloys;
粉末高温合金平衡相析出行为的热力学对比
2.
High temperature deformation and dynamic recrystallization of a new type of P/M superalloy;
某新型粉末高温合金的高温变形与动态再结晶
3.
Pre-forming design of P/M superalloy disc based on equipotential field
基于类等势场的粉末高温合金盘件预成形设计
4) FGH95 superalloy powders
FGH95高温合金粉末
1.
Carbide and its stability in FGH95 superalloy powders during rapid solidification;
对快速凝固FGH95高温合金粉末中的碳化物及其稳定性进行实验研究,分析了粉末颗粒凝固过程中的热学参数和非平衡溶质分配对碳化物形成过程的影响。
5) superalloy powder
高温合金粉末
1.
The formation mechanism of porosity in Ni base superalloy powder produced with PREP was stated.
阐述了等离子旋转电极工艺 (PREP)制取的镍基高温合金粉末内部孔洞的形成机理 ,分析了导致孔洞形成的因素 ,提出了降低粉末内部孔洞应采取的措施。
2.
Mixed powder was prepared by adding 50~100μm size Al 2O 3 particles into superalloy powder in the range of 50~100μm in diameter.
用人工方法将粒度范围为 5 0~ 10 0 μm的Al2 O3颗粒掺入到粒度范围为5 0~ 10 0 μm的高温合金粉末中 ,对混合粉末进行静电分离 (ESS)后 ,用体视显微镜检测Al2 O3颗粒的去除效果。
6) FGH95 superalloy powder
FGH95高温合金粉末
1.
Pre-heat treatment of PREP FGH95 superalloy powders;
等离子旋转电极雾化FGH95高温合金粉末的预热处理
2.
The microstructure characteristics of FGH95 superalloy powders prepared by plasma rotating electrode processing (PREP) have been investigated by using SEM.
对等离子旋转电极雾化(PREP)FGH95高温合金粉末颗粒凝固组织特征进行研究,并用数值分析方法计算了FGH95合金粉末凝固过程中冷却速率与粉末粒度之间的关系,结果表明:粉末颗粒表面凝固组织主要是树枝晶和胞状长大晶,随着粉末颗粒尺寸的减小,内部凝固组织由树枝晶为主逐渐转变为以胞状晶及微晶组织为主,冷却速率与粉末粒度之间的关系为T=2。
3.
In order to investigate the relation between microstructure of superalloy powders and the heat treatment system, this paper studied the transformation of carbides in FGH95 superalloy powders prepared by plasma rotating electrode processing (PREP) under different pre-heating treatment temperature.
对等离子旋转电极雾化(PREP)FGH95高温合金粉末颗粒在不同温度下进行预热处理,并对热处理粉末中碳化物的变化规律进行分析,结果表明:经预热处理,粉末颗粒中的MC’型亚稳碳化物发生分解和转变,析出稳定的MC,M_(23)C_6及M_6C型碳化物,明显改变碳化物的稳定性和分布状态。
补充资料:氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
J氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
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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