Nanotubes (42, 44) from each column of metallic catalyst are laterally grown and either abut or merge into one nanotube.
源自金属催化剂的各柱体的纳米管(42、44)横向生长并且邻接或合并成一个纳米管。
It does this by combining CO2 with natural gas in the presence of a proprietary metallic catalyst it has developed and licensed.
方法是利用一种金属催化剂,将二氧化碳与天然气混合。这种催化剂是他们公司发明并注册的。
Experimental results proved that both of them could support metallic catalyst by precipitation, and directly decompose acetylene to prepare multi walled CNTs.
实验结果证实,它们都可以作为催化剂的载体,沉淀法承载金属催化剂,直接裂解乙炔,催化合成多壁碳纳米管。
Poly (propylene carbonate) polyols was synthesized by the copolymerization of carbon dioxide with propylene oxide in the presence of double metallic catalyst in loop reactor.
以二氧化碳3环氧丙烷为原材料,在双金属氰化物催化剂催化下,利用环流反应器合成聚碳酸亚丙酯多元醇。
The invention discloses a composite metallic catalyst for desulfurization by magnesium in the field of composite metallic catalysts, and a preparation method of the composite metallic catalyst.
本发明公开了一种属于复合型金属催化剂领域的用于镁法脱硫工艺的复合型金属催化剂及其制备方法。
The harms of sulfides come from many aspects to petroleum refining and product application, e. g. eroding metallic equipment, making catalyst poisoning, affecting on products output.
含硫化合物对石油加工及其产品应用的危害是多方面的,如腐蚀金属设备,造成催化剂中毒,影响产品质量等。
Marine manganese nodule containing a large amount of metallic cations is a natural catalyst.
由于矿物晶格中含有催化剂金属离子,大洋锰结核是天然的催化剂。
However, the development of metallic monolithic catalyst is prevented by a low activity and a poor adhesion of the active component with the support.
制备出具有高活性和粘附稳定性的金属负载整体型催化剂是本论文的目标。
Metallic substrate automobile catalyst is a novel catalyzes technology, which has an extensive application and wide foreground in auto emission cleanse technology.
车用金属载体催化剂在汽车尾气催化净化方面有着广泛的应用前景,是当前新兴的汽车尾气催化剂技术。
The system of crosslinking and catalyst: 5. Metallic ions added to printing paste;
交联及催化体系; (5)印花色浆中的金属离子;
Catalyst of the organo-metallic compound (OME) on the combustion and thermal decomposition of HNIW monopropellant was investigated through burning rate measurement, DSC and TG thermal analysis.
通过燃速测定、差示扫描量热技术(dsc)和热失重技术(TG)研究了有机金属化合物催化剂(ome)对六硝基六氮杂异伍兹烷(HNIW)单元推进剂热分解和燃烧性能的影响。
Catalyst of the organo-metallic compound (OME) on the combustion and thermal decomposition of HNIW monopropellant was investigated through burning rate measurement, DSC and TG thermal analysis.
通过燃速测定、差示扫描量热技术(dsc)和热失重技术(TG)研究了有机金属化合物催化剂(ome)对六硝基六氮杂异伍兹烷(HNIW)单元推进剂热分解和燃烧性能的影响。
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