1) directly electrolytic producing low-titanium aluminum alloy
电解生产低钛铝合金
2) electrolytic low-titanium aluminum alloy
电解低钛铝合金
1.
Results showed that the mechanical properties of the electrolytic low-titanium aluminum alloy was superior to that of the fused alumi.
在电解低钛铝合金中,球形Mg2Si分布更为弥散、均匀。
2.
The 6063 alloys are made with electrolytic low-titanium aluminum alloys.
用电解低钛铝合金熔配6063合金,挤压成型材后,研究其微观组织与力学性能,并与国内6063型材的微观组织与力学性能做了对比。
3.
The grain refinement effect and fading behaviors of titanium added to commercial pure aluminum by electrolysis and by Al-Ti and Al-Ti-B master alloy, and added to electrolytic low-titanium aluminum alloys by Al-B master alloy were investigated through comparing experiment.
通过对比实验,研究了电解加钛与经Al Ti、Al Ti B中间合金向工业纯铝熔配加钛的晶粒细化效果及其衰退行为,以及Al B中间合金对电解低钛铝合金的晶粒细化效果及衰退行为的影响,还分析了硼对电解低钛铝合金的晶粒细化和抗衰退行为的影响。
3) electrolytic low-titanium aluminium alloy
电解低钛铝合金
1.
The microstructure and mechanical properties of alloy ZL108 and ZL108Ti produced by the pure aluminium ingot and the electrolytic low-titanium aluminium alloy ingot respectively were studied.
研究了用纯铝锭和电解低钛铝合金锭来熔配生产ZL108Ti合金的组织及性能。
4) Al-base alloy electrolysis liquid with low Ti content
电解低钛铝基合金液
5) electrolytic low-titanium aluminum base alloy
电解低钛铝基合金
1.
In order to study the effects of element titanium and different titanium alloying methods on the fatigue properties and fracture toughness of alloy ZL108 systematically, the electrolytic low titanium alloying ZL108 (referred as ZL108D) and the low titanium alloying ZL108 by melting (refer as ZL108R) are made from electrolytic low-titanium aluminum base alloy and Al-Ti maste.
为系统地研究加钛和不同的加钛方式对ZL108合金疲劳性能和断裂韧性的影响,以电解低钛铝基合金和A1-Ti中间合金为原材料,采用相同的试验条件,分别制备ZL108合金、电解加钛ZL108合金(记作ZL108D)和熔配加钛ZL108合金(记作ZL108R),在MTS810型材料试验机上进行对比试验。
2.
One is the normal alloy ZL108 containing no titanium; the second is produced with the electrolytic low-titanium aluminum base alloy (referred as ZL108D); the third is produced with pure aluminum and Al-Ti master alloy (referred as ZL108R).
为系统地研究加钛和不同的加钛方式对ZL108合金力学及磨损性能的影响,以电解低钛铝基合金和Al-5。
6) electrolysis Al-Ti alloy
电解钛铝合金
补充资料:电解法生产铝硅母合金
电解法生产铝硅母合金
production of aluminium-silicon master alloy by electrolysis
d ionl旧fa shengehan IUgui muhelln电解法生产铝硅母合金(produetion。f alu-minium一silieon master alloy by eleetrolysis) 在工业铝电解中,向电解槽添加硅化合物,在铝阴极上产出铝硅母合金的过程。为熔盐电解法生产铝基母合金方法之一。添加的硅化物通常是二氧化硅。 把510:加入到铝电解质中后便溶解成为Si嘴+阳离子和02一阴离子。由于在电解温度下硅离子的析出电位比铝正0.53V,所以它优先在阴极析出: 514++4e一51析出的硅立即溶于阴极铝液中成为铝硅合金。 铝电解槽在生产中常有15一20cm厚的铝液层存在于槽底上,添加二氧化硅后,溶解在电解质中的二氧化硅会与阴极铝和溶解于电解质中的铝发生热还原反应得到单质硅: ,.,.3~.~3_二,_ 2AI+言S‘02一首S‘十A‘203硅的电解析出与热还原反应生成总是同时在电解槽内进行。试验证明,硅以铝热还原反应生成为主。 在铝电解槽中生产铝硅母合金,无论是铝热还原反应生成或电解析出的.总是以牺牲铝为代价来换取单质硅(以当量的形式)。因此,在铝电解槽中生产铝硅母合金时必须综合考虑当时的铝价、硅价和铝硅合金的价格。硅和铝硅合金价格愈高,经济效益愈好。 (张明杰徐树田)
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