1) heat-resistant aluminum alloy AA8009
耐热铝合金AA8009
1.
Rapid solidified heat-resistant aluminum alloy AA8009 by CO_2 laser welding;
CO_2激光焊接快速凝固耐热铝合金AA8009
2) rapidly solidified high temperature AA8009 aluminum alloy
快速凝固AA8009耐热铝合金
3) AA8009 alloy
AA8009合金
1.
The corrosion-resistance property of AA8009 alloy and the tungsten inert gas welding(TIG) and electron beam welding(EBW) welds were studied by means of exfoliation corrosion,polarization curve test and analysis of corrosion surface,and compared with those of LF6 and 2024 alloys.
通过剥落腐蚀实验、极化曲线测定和腐蚀形貌观察,研究了AA8009合金(Al-8。
4) heat resistant aluminum alloy
耐热铝合金
1.
In this paper, the development of rapid-solidified heat resistant aluminum alloys are reviewed, and the principle of compositional selecting, preparation methods and reinforcement mechanism are analyzed emphatically.
耐热铝合金由于具有低密度、低价格、良好的耐热和耐腐蚀性能,在航空、航天等工业领域得到了广泛应用。
5) heat-resistant aluminum alloy
耐热铝合金
1.
Lubrication action of pure aluminum during high temperature deformation of heat-resistant aluminum alloy;
纯铝在耐热铝合金高温变形过程中的润滑作用
2.
Experimental investigation on forge forming process of spray deposited blanks of rapidly solidified AlFeX heat-resistant aluminum alloy;
快速凝固AlFeX耐热铝合金喷射沉积坯锻造成型工艺试验研究
3.
Densification and mechanical properties of spray deposited large scale heat-resistant aluminum alloy tubular preforms during wedge pressing;
大尺寸喷射沉积耐热铝合金管坯楔压致密化与力学性能
6) heat-resistant Al alloy
耐热铝合金
1.
The heat flow of the depositing process in the course of the preparation of multi-layer spray deposited (MLSD) pipe blank of heat-resistant Al alloy was modeled.
通过建立沉积阶段热流分析模型,对多层喷射沉积制备耐热铝合金管坯过程中喷射流沉积后的凝固和冷却进行了分析。
2.
This paper established a model for the heat flow of the atomization process in preparing the multi-layer spray deposited (MLSD) heat-resistant Al alloy pipe blank, and calculated the kinetic energy and heat transformation between the molten droplets and the atomization gas.
建立了多层喷射沉积制备管坯的雾化过程热流模型,并对耐热铝合金熔滴在雾化飞行过程中与雾化气流的动能和热能交换进行了计算和分析。
补充资料:耐热铝合金
分子式:
CAS号:
性质:能在较高温度下使用而不软化的铝合金。提高铝合金热强性的主要途径是固溶强化等。提高铝合金热强性的主要途径是固溶强化、过剩相强化和晶界强化等。为此,常加入钼、镍、铜、锂、铁或稀土元素,以形成热稳定性较好的过剩相Al2CuMg,Al6Cu3Ni,Al2FeSi,Al9FeNi,Al2CuLi,Al6Mn,Al3Ti,Al3Fe,Al4Ce4,Al2Cu4Mg5Si4等。根据加工工艺不同可分为耐热变形铝合金(包括耐热锻铝合金耐热硬铝合金)和耐热铸造铝合金。主要用作在150~300℃工作的零件,如涡轮压缩机叶片盘、焊接容器、活塞等。
CAS号:
性质:能在较高温度下使用而不软化的铝合金。提高铝合金热强性的主要途径是固溶强化等。提高铝合金热强性的主要途径是固溶强化、过剩相强化和晶界强化等。为此,常加入钼、镍、铜、锂、铁或稀土元素,以形成热稳定性较好的过剩相Al2CuMg,Al6Cu3Ni,Al2FeSi,Al9FeNi,Al2CuLi,Al6Mn,Al3Ti,Al3Fe,Al4Ce4,Al2Cu4Mg5Si4等。根据加工工艺不同可分为耐热变形铝合金(包括耐热锻铝合金耐热硬铝合金)和耐热铸造铝合金。主要用作在150~300℃工作的零件,如涡轮压缩机叶片盘、焊接容器、活塞等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条