Ni-Co合金,即镍钴合金,是一种重要的金属材料,具有优异的耐腐蚀性、高温性能和磁性能。Ni-Co合金在航空航天、化工、医疗器械等领域有着广泛的应用。同时,Ni-Co alloy也是一种重要的材料组合,将镍和钴的特性融合在一起,赋予了合金更多的特性和应用前景。在现代工业中,Ni-Co alloy已成为许多领域必不可少的一部分。以下是一些关于Ni-Co合金和Ni-Co alloy的英语短句和例句,来展示这两种材料的重要性和应用价值。
Ni-Co合金,Ni-Co alloy
1)Ni-Co alloyNi-Co合金
1.A Study on Electrodeposition of Ni-Co Alloy and Structure of Deposit;电沉积Ni-Co合金及其结构研究
2.Microstructures and mechanical properties of pulsed electrodeposition nanocrystallineNi-Co alloy;脉冲电沉积纳米晶Ni-Co合金的组织结构与力学性能
3.By the method of high frequency pulse electroplating,Ni-Co alloy coating was prepared.采用高频脉冲电流,制备Ni-Co合金镀层。
英文短句/例句
1.Internal Stress and Co Content of Pulse Electrodeposited Ni-Co Alloy Coatings脉冲镀Ni-Co合金镀层内应力及钴含量的研究
2.Corrosion Characteristic of Pulsed Electrodeposition Nanocrystalline Ni-Co Alloy Coating脉冲电沉积纳米晶Ni-Co合金镀层腐蚀特性研究
3.Optimization of Electroplating Process for Ni-Co-P Alloy Coating on Aluminum Alloy Substrate铝合金Ni-Co-P合金电镀工艺优化
4.Electrodeposition and Properties of Ni-W, Co-Ni-W Alloys;电沉积制备Ni-W、Co-Ni-W合金及性能研究
5.A metal compound, such as Ni(CO)4, containing the CO group.含羰基的金属化合物,如Ni(CO)4
6.Jet-Electrodeposition of Co-Ni Alloys and Their Thermal Stability;Co-Ni合金的喷射电沉积及其热稳定性
7.Research on Nanocrystalline WC-8(Fe、Co、Ni)RE Cemented Carbide;纳米WC-8(Fe、Co、Ni)RE硬质合金研究
8.Study on Low-Carbon Fe-W(Mo)-Co(Ni) Alloys;低碳Fe-W(Mo)-Co(Ni)合金研究
9.Synthesis and performance of Ni-Sn-Co alloy electrode materialNi-Sn-Co合金电极材料的制备及性能
10.Preparation of 80%Fe-10%Co-10%Ni Powder for Cemented Carbide Adhesive80%Fe-10%Co-10%Ni合金粉的制备
11.Densification of Cu-Ni-Fe-Co alloysCu-Ni-Fe-Co合金的烧结致密化
position design of Zr-Al-Ni-Co bulk amorphous alloysZr-Al-Ni-Co块体非晶合金的成分设计
13.Study on Low-Carbon Fe-W(Mo)-Co(Ni)Alloys (B)低碳Fe-W(Mo)-Co(Ni)合金研究(B)
14.Studies on Characters and Synthesis of Metal-Salen Complexes;金属(Ni、Co、Zn)——Salen配合物的合成及性质研究
15.The Studies of Electrodeposition and Performance of Amorphous Fe-Co-W, Ni-Co-W Alloy Deposits for Chromium Replacement;电沉积Fe-Co-W、Ni-Co-W非晶合金代铬镀层工艺及性能研究
16.Influence of Temperature and Co Content on Magnetism and Magnetoresistance of Melt-spun Cu/Co/Ni Alloy Ribbons;温度和Co含量对Cu/Co/Ni合金快淬薄带磁性和磁电阻效应的影响
17.An Investigation on the La-Ni-Sn-based AB_(5+x) Type Co-free Hydrogen Storage Electrode Alloys;La-Ni-Sn系AB_(5+x)型无Co贮氢电极合金的研究
18.Study on Process, Microstructure and Properties of Electroless Ni-Co-P Alloy;化学镀Ni-Co-P合金工艺、组织结构和性能的研究
相关短句/例句
Co-Ni alloyCo-Ni合金
1.Study on structure and properties of electrodepositedCo-Ni alloy deposits;Co-Ni合金镀层组织结构及性能研究
2.The anomalous codeposition behavior ofCo-Ni alloys from sulfamate electrolytes containing various Co2+/Ni2+ ratios was investigated by steady polarization curves and electrochemistry impedance spectroscopy (EIS) measurements.通过稳态阴极极化和电化学交流阻抗(EIS)等方法,研究了在不同钴镍金属离子比例的氨基磺酸电解液中,Co-Ni合金的电化学共沉积行为。
3.A new kind of inert anodes was prepared by cold isostatic press-sintering method based upon the fact that inverse spinel oxide NiFe_2O_4 has good corrosion resistance andCo-Ni alloy has excellent oxidation resistance.本论文主要围绕铝电解用金属基惰性阳极的研究开展工作,针对尖晶石型氧化物NiFe_2O_4良好的耐腐蚀性和Co-Ni合金优良的抗氧化性,利用冷等静压-真空烧结的方法制备了一种新型金属基惰性阳极材料。
3)Co-Ni alloysCo-Ni合金
1.A new kinetic model for the electrolytic codeposition of α-Al2O3 particles withCo-Ni alloys on a rotation disk electrode is presented, which is based on the balance of force acting on a particle near the electrode surface.该模型在α-Al_2O_3与Co-Ni合金的复合共沉积体系中,在电流密度为1~20A·dm~2范围内得到了验证。
2.Considering above problem, the main purpose of this work is to prepare BCNM ofCo-Ni alloys by a new method of electrolyte jet electrodeposition (JED).本文主要研究了电解液化学成分,喷射速度,温度和电流密度等工艺参数对Co-Ni合金的形貌特征,化学成份,相组成,晶粒尺寸和性能影响。
4)Cu-Ni-Co alloyCu-Ni-Co合金
5)Co-Ni-Ga alloyCo-Ni-Ga合金
6)Fe-Co-Ni alloyFe-Co-Ni合金
1.Microemulsion synthesis and characterization ofFe-Co-Ni alloy nanoparticles;微乳液法合成Fe-Co-Ni合金纳米微粒
2.Process of electroplatedFe-Co-Ni alloy;电沉积Fe-Co-Ni合金工艺
3.Quasi-aligned ZnO sub-micron structures have been synthesized by hydrothermal process in solution of zincnitrate(Zn(NO3)2·6H2O) and ammonia(NH3·H2O) onFe-Co-Ni alloy at 85 ℃.以Fe-Co-Ni合金为衬底,硝酸锌(Zn(NO3)2。
延伸阅读
Ni3Al基金属间化合物高温合金Ni3Al基金属间化合物高温合金Ni_(3)Al-base intermetallic compound superalloyN一3AIJ一J旧shuJ一an huahewu goowen heJ一nNi3AI基金属间化合物高温合金(Ni3AI一baseintermetallie eompound superalloy)以Ni3AI相为基体的金属间化合物高温合金。Ni3AI作为高温合金材料中的强化相口)早已被人们所熟知。单晶Ni3AI有较好的室温塑性和加工性,但多晶Ni3AI在室温的塑性儿乎为零。1979年,日本和泉修等发现,添加微量硼可使Ni3AI韧化。硼强烈地偏聚于晶界,从而提高晶界的结合强度并使晶界区无序化,因此提高了晶界区塑性变形能力,使Ni3AI的室温拉伸伸长率可达50%以上。纯净N珠AI的室温、高温强度偏低,与高温合金相比需要进一步提高。固溶强化(见高温合金固溶强化)是提高强度的一条有效途径。Ni3AI可以固溶很多元素,其中以错和铅的强化效果最显著。美国橡树岭国家试验室已发展了一系列含铬、错、错等元素的Ni3AI基金属间化合物高温合金,具有良好的强度、塑性和高温抗氧化性。中国也对Ni3AI基合金进行了深入研究,并添加微量镁显著改善了热加工塑性。Ni3AI基合金可能是最先在工业上得到使用的金属间化合物高温合金之一,已制成各种部件在试用,如汽轮机和柴油机的耐热部件、高温模具、加热元件以及航空用的紧固件等。〔邹敦叙)
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