1) doped molybdenum wire
掺杂钼丝
1.
The results show that compared with pure molybdenum wire,recrystallization temperature of doped molybdenum wire increases by 400 ℃ at least,the microstructure of doped molybdenum wire was more homogenous,and the performance of doped molybdenum wire was better obviously.
用粉末冶金工艺先制取掺杂稀土La的钼坯,再经旋锻、拉拔制成掺杂钼丝。
2) doped molybdenum
掺杂钼
1.
Study on the changes of the elemental dopant in Si-Al-K doped molybdenum during the manufacturing process;
Si-Al-K掺杂钼加工工艺过程中掺杂元素的变化研究
2.
The effects of annealing temperature on the room temperature tensile properties,bend ductile-brittle transition temperature (DBTT) and room temperature reverse bend property of doped molybdenum sheet are briefly described in this paper.
本文简述了退火温度对掺杂钼板的室温抗拉性能、弯曲塑—脆转变温度及室温反复弯曲性能的影响。
3.
The elevated temperature mechanical properties and microstructure of Si-Al-K doped molybdenum were studied by thermal simulation and TEM.
通过热模拟试验机对Si、Al、K掺杂钼的高温力学性能进行了分析,利用透射电镜观察其组织形貌。
3) Mo-doped
钼掺杂
1.
Synthesis and Characterization of Mo-doped V_2O_5 Nanobelts
钼掺杂五氧化二钒纳米带的制备及表征
4) MoO 3 doping
氧化钼掺杂
5) doped molybdenum alloys
掺杂钼合金
1.
The rare earth lanthanum oxide doped molybdenum alloys containing different volume fraction lanthanum oxide particles were prepared by powder metallurgical processing.
结果表明,稀土氧化镧掺杂钼合金由于其细小的氧化镧颗粒和细小的晶粒的作用而具有较高的屈服强度。
补充资料:含钼矿石中回收钼
含钼矿石中回收钼
recovery of molybdenum from ores containing molybdenum
hanmu kuangshi Zhong hu一shou mu含相矿石中回收相(reeovery of molybde-num from ore eontaining molybdenum)以含铝矿石为原料,在提取矿石主金属的同时又提取铝的冶金过程。含钥矿物原料主要有含钥的铀矿和含相的钒矿。 在沉积型铀矿石中,钥常与铀共生,需在提取铀的同时回收其中的相。在沉积型铀矿浸出过程中,铂随铀一起进人浸出液,铝呈轻氧铝酸根阳离子和多种阴离子形态存在,铀呈铀酞阳离子形态存在。用溶于煤油的烷基磷酸和磷酸三丁脂的有机相进行多级逆流萃取铀时,萃余液铀浓度降至lmg/L以下,铂则留于萃余液中。然后用胺萃取和氨溶液反萃取法富集钥(见相溶荆萃取)。再从钥反萃取液中用常规法生产多钥酸按(见铂酸按制取)。产品总放射性强度为lxlo一SCi/kg,小于允许值1 xl。一’ci/kg的标准。采用萃取法分离铀钥和萃取法提取钥的方法,适用于较广泛浓度范围的铀钥分离,此法已用于生产。 在钒矿石中,相常与钒共生,在提取钒的同时,也要回收其中的钥。在钒矿浸出过程中,铝随钒一起进入浸出液.由浸出液沉淀五氧化二钒时,钥留在沉淀母液中,然后用钥溶剂萃取法或铂离子交换法提取沉淀母液中的钥,再按常规方法制取多钥酸按。 (李钟实)
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