1)Ni-Fe slagNi-Fe尾矿
1.The result indicated: The Ni-Fe slag was activated by planetary with AGO-Ⅱ, SKF-04, XGM-2L.本文对机械化学法在Ni-Fe尾矿中提取MgO进行了研究,分析了采用机械化学方法活化尾矿影响氧化镁浸出率的规律。
2.Using high-energy planetary,the Ni-Fe slag was activated by mechanochemistry.用高能行星球磨机对Ni-Fe尾矿进行机械力化学活化,通过XRD、SEM分析,研究了粉磨过程中Ni-Fe尾矿的晶型、形貌和显微结构的变化对Ni-Fe尾矿中MgO的浸出率的影响。
英文短句/例句
1.Study on Extraction of MgO from Ni-Fe Slag by Mechanochemistry机械化学法提取Ni-Fe尾矿中MgO的工艺研究
2.Study of MgO Extraction from Ni-Fe Slag by Mechanochemistry机械化学法在Ni-Fe尾矿中提取MgO的工艺
3.Preparation and Gas-Sensing Properties of Perovskite-Type Nanocrystalline La(Pb)Fe(Co, Ni)O_3 System;纳米晶钙钛矿型La(Pb)Fe(Co,Ni)O_3的制备及气敏特性研究
4.The Mechanical Alloying of Fe-Ni-Al and Fe-Ni-Ce Systems;Fe-Ni-Al和Fe-Ni-Ce三元合金的机械合金化研究
5.Study on Degradation of Polychlorinated Biphenyls by Ni/Fe and Nanoscale Ni/Fe Bimetallic Particles;Ni/Fe及纳米Ni/Fe对多氯联苯的催化脱氯
6.Preparation of nano Fe/SiO_2 core-shell composite particles from copper/iron ore cinder and their microwave absorption properties铜铁尾矿制酸烧渣制备纳米Fe/SiO_2核壳复合粒子的微波吸收性能
7.Studies on Technology and Basic Mechanism of Plating Ni-Fe、Ni-Fe-Cr Alloy Foil and Ni-Cr Alloy;Ni-Fe、Ni-Fe-Cr合金箔及Ni-Cr合金电沉积工艺和基础理论研究
8.Cu-Fe-Ni sulfides are disseminated both in the core of titaniferous iron ore and in the diallagite pegmatoid.Cu-Fe-Ni硫化物星散分布于钛磁铁矿核心部分以及易剥辉石似佛晶岩中。
9.The Studies of Structure and Properties of Electrodeposited Nano Fe-Ni Alloys and Amorphous Fe-Ni-W Alloys;电沉积Fe-Ni纳米合金与非晶态Fe-Ni-W合金结构及性能研究
10.The Study on Dechlorination of Chlorinated Organic Compounds in Water by Ni/Fe Nanoparticles and with Assistance of Ultrasound;纳米Ni/Fe及超声辅助纳米Ni/Fe对水中氯代有机物脱氯研究
11.Precipitation Characteristics by/in NiAl/Fe Taken as Matrix/Precipitate in Ni-Al-Fe SystemNi-Al-Fe中NiAl/Fe互为基体/析出相的组织特征
12.Design and Preparation of Fe-Ni Soft Magnetic Alloy Absorbing Materials;Fe-Ni软磁合金吸波材料的设计与制备
13.Solidification Microstructures and Magnetic Properties of Undercooled Fe-Ni Alloys;深过冷Fe-Ni合金的凝固组织与磁性能
14.Study of Carbusintering Process of Fe-Ni Alloy Powder Materials;Fe-Ni合金粉末材料渗碳烧结的研究
15.Preparation and Mechanical Properties of TiB_2-Fe-Ni-Al Cermet;TiB_2-Fe-Ni-Al金属陶瓷的制备与性能研究
16.Study of Ni-Fe-graphite Self-lubricating Material;Ni-Fe-石墨自润滑材料的研究
17.Experimental Researches on the Fe-Co-Ni Based Microwave Absorbing Composites;Fe-Co-Ni基复合吸波材料的试验研究
18.Study on the Elongation of W-Ni-Fe Heavy Tungsten Alloys;W-Ni-Fe高密度合金的延伸率研究
相关短句/例句
Fe NiFe-Ni
3)nanoscale Ni/Fe纳米Ni/Fe
1.Nanoscale iron and nanoscale Ni/Fe bimetal were used to dechlorinate carbon tetrachloride (CT).反应进行 1h ,纳米Ni/Fe ,纳米Fe和铸铁屑的脱氯率分别为 98%,84 %和 6 5 %;纳米Ni/Fe和纳米Fe产生的中间产物三氯甲烷 (TCM)最大量分别为 2 5 %和 5 9%,随之TCM又逐渐下降 ,尤其是纳米Ni/Fe在很短时间内 ,将TCM快速完全脱氯且产生 2 7%甲烷 (CH4)和 1 5 %二氯甲烷 (DCM) ,并对DCM没有明显的脱氯作用。
2.Nanoscale Ni/Fe Were prepared adopting chemical precipitation technique, and studies on catalytic dechlorination of Polychlorinated Biphenyls using the prepared nanoscale Ni/Fe were carried out in this paper.本文采用化学沉淀法制备纳米Ni/Fe双金属颗粒,利用制备的纳米Ni/Fe对PCBs进行还原降解研究。
4)Fe-Ni filmFe-Ni薄膜
5)Ni-Fe alloyNi-Fe合金
1.Electrochemical behaviors of Ni-Fe alloy codeposition;Ni-Fe合金共沉积的电化学行为
2.Progress of Ni-Fe alloy plating;Ni-Fe合金电镀的研究进展
3.Corrosion resistance and destruct process of Ni-Fe alloy coatings by electrodeposition were studied by weight loss,anodic polarization curve and EIS techniques.本文采用失重、阳极极化和电化学阻抗谱等方法研究了电沉积Ni-Fe合金镀层腐蚀性能和镀层的破坏过程。
6)(Fe,Ni)_3V(Fe,Ni)3V
延伸阅读
Nini:1 (non-intel,非英特尔架构)除了英特尔之外,还有许多其它生产兼容x86体系的厂商,由于专利权的问题,它们的产品和英特尔系不一样,但仍然能运行x86指令。2 美国国家仪器(ni)有限公司(national instruments)national instruments (美国国家仪器有限公司,简称ni)创立于1976年,总部设于texas州首府austin,是一家测量行业的上市公司 (纳斯达克挂牌代号 nati) ,在世界各地设有50多个分公司和办事处,和众多系统联盟成员。3元素符号: ni 英文名: nickel 中文名: 镍相对原子质量: 58.7 常见化合价: +2,+3 电负性: 1.91外围电子排布: 3d 4s2 核外电子排布: 2,8,16,2同位素及放射线: ni-56[6.1d] ni-57[35.6h] *ni-58 ni-59[76000y] ni-60 ni-61 ni-62 ni-63[100y] ni-64 ni-65[2.51h]电子亲合和能: 111.5 kj·mol-1第一电离能: 737 kj·mol-1 第二电离能: 1753 kj·mol-1 第三电离能: 3393 kj·mol-1单质密度: 8.902 g/cm3 单质熔点: 1453.0 ℃ 单质沸点: 2732.0 ℃原子半径: 1.62 埃 离子半径: 0.69(+2) 埃 共价半径: 1.15 埃常见化合物: nibr2 nio niso4 nis nicl2发现人: 克朗斯塔特 时间: 1751 地点: 瑞典名称由来:德语:kupfernickel(假铜)。元素描述:硬而柔韧的银白色金属。见于地壳局部,平均含量百万分之70。能被磨得光亮如镜,通常情况下绝不生锈。元素来源:主要见于镍黄铁矿[(ni,fe)9s8]中。镍金属的生产方法是在鼓风炉里加热矿石,于是矿石中的硫被氧置换。随后用酸处理生成的氧化物,铁就会与酸反应,而镍保留下来。元素用途:由于镍的耐腐蚀性,可用作镀层金属、制金属合金,也可用于制镍镉电池、作催化剂,以及铸造硬币。
