Nd-Fe-B薄膜,Nd-Fe-B thin film
1)Nd-Fe-B thin filmNd-Fe-B薄膜
1.Preparation and microstructure ofNd-Fe-B thin films by magnetron sputteringNd-Fe-B薄膜的磁控溅射法制备与组织结构
英文短句/例句
1.Preparation and microstructure of Nd-Fe-B thin films by magnetron sputteringNd-Fe-B薄膜的磁控溅射法制备与组织结构
2.The Research on the Electrodeposition of Fe-Nd-P Alloy Films and Fe-Ce-P Alloy Films in Aqueous Solutions;水溶液电沉积Fe-Nd-P、Fe-Ce-P稀土合金薄膜
3.Preparation and Investigation of Magnetic Fe-Zr-B Thin Films;Fe-Zr-B磁性薄膜的制备与研究
4.Study on Surface Protection of Sintered Nd-Fe-B Permanent Magnets;烧结型Nd-Fe-B永磁体表面防护的研究
5.MAGNETIC PROPERTIES AND MICROSTRUCTURES OF THE Nd-Fe-B SYSTEM BY HDDR PROCESS;HDDR制备Nd-Fe-B合金性能与组织研究
6.Anisotropy Nd-Fe-B Magnetic Powders Made from SC-HDDR ProcessSC-HDDR工艺制备各向异性Nd-Fe-B磁粉
7.Research on the Technology and Characteristics of Fe-Zr-B-Cu Amorphous Thin Film by Magnetron Sputtering;磁控溅射制取Fe-Zr-B-Cu非晶合金薄膜的工艺及膜结构研究
8.Effects of Nd~(3+) on Adhesion And Corrosion Resistance of Electroless Ni-P Coating on Sintered Nd-Fe-B MagnetsNd~(3+)对烧结Nd-Fe-B化学镀Ni-P合金结合力和耐蚀性的影响
9.Study on the Process and Electrochemical Properties of Electroless Deposition Co-Fe-B Alloy Film with Rare Earth Joined;化学沉积稀土Co-Fe-B合金薄膜工艺和电化学性能的研究
10.Study on the Process, Structure and Properties of Electroless Deposition Fe-B Alloy Film with Rare Earth Joined化学沉积稀土Fe-B合金薄膜工艺与组织性能的研究
11.Grinding of Sintered Nd-Fe-B Magnet and Study on Computer Simulation Technology;烧结Nd-Fe-B永磁材料磨削加工及仿真技术研究
12.Study on the Coercivity Mechanism of Nd-Fe-B Melt-spun Nanocrystalline Magnets;快淬Nd-Fe-B纳米晶永磁反磁化机理研究
13.Research on Preparation Process and Properties of Bonded Nd-Fe-B Permanent Magnets;粘结Nd-Fe-B永磁体制备工艺及其性能研究
14.Developing and Progressing of Global Nd-Fe-B Rare-earth Permanent Magnet;全球Nd-Fe-B稀土永磁材料产业的发展与趋势
15.The Soft Chemistry Synthesis of Nd-Fe-B uoy and the Contral of its Particle Fineness;Nd-Fe一B合金的软化学合成和粒度的控制
16.Study on Microstructure Optimization and Properties of Sintered Nd-Fe-B Permanent Magnetic Materials烧结Nd-Fe-B永磁材料显微结构优化与性能研究
17.Effect of Gd, Y Content on the Magnetic Properties of Sintered Nd-Fe-B Permanent MagnetGd、Y含量对烧结Nd-Fe-B磁体磁性能的影响
18.EFFECT OF Nb ON CRYSTALLIZATION KINETICS OF Fe-Co-Nd-B AMORPHOUS ALLOYSNb对非晶态Fe-Co-Nd-B合金的晶化动力学的影响
相关短句/例句
Nd-Fe filmNd-Fe薄膜
3)Fe-Zr-B thin filmsFe-Zr-B薄膜
4)I-IDDRHDDR Nd-Fe-B
5)NdFeB/α-FeNd-Fe-B/α-Fe
1.NdFeB/α-Fe two-phase magnetic powders were obtained by sonochemistry method.采用声化学法制备 Nd-Fe-B/α-Fe 型双相包覆磁粉,再经放电等离子烧结(SPS)制备成致密块状磁体。
6)Fe-Pt-B alloy filmsFe-Pt-B 合金薄膜
1.Under this condition,theFe-Pt-B alloy films have been prepared by means of electrochemistry deposition.通过循环伏安法,得到了 Fe-Pt-B 合金薄膜最佳沉积电位。
延伸阅读
Fe-C-O和Fe-H-O系平衡图铁及其氧化物与CO-CO2或 H2-H2O 混合气体达到平衡时的气相组成与温度的关系图(图1)。它是由实验测得的数据绘制的,是冶金过程物理化学常用的一种优势区图。图中三条线分别代表下列三个反应的平衡气相组成:570℃以下:Fe3O4+4CO3Fe+4CO2 (1)570℃以上:Fe3O4+CO3FeO+CO2 (2)FeO+COFe+CO2(3)3Fe2O3+CO─→2Fe3O4+CO2反应达平衡时的一氧化碳分压值太小,几乎与横坐标重合,图中未标出。如果实际气相组成pco/(pco+pco2)高于平衡组成,则反应将向右进行,此时反应式等号右边的固相是稳定的,左边的固相不稳定。图中每条线上方的区域就是该反应式右边固体的稳定存在区。这三条线将整个图划分为三个区域,即Fe、FeO、Fe3O4的稳定存在区。三条线交点是四相(Fe、FeO、Fe3O4及气相)共存点(见相图)。在钢铁冶炼过程中,常利用此图来确定在给定温度和气相组成条件下能够稳定存在的固相。此图还明确表明铁的各级氧化物是逐级转化的(见Fe-O 状态图)。由图1可见,在虚线(Fe-H-O平衡)与实线(Fe-C-O平衡)交点温度(820℃)以上,H2比CO具有更强的还原能力;在820℃以下,则正相反。CO对铁还有渗碳作用。当气体中的比值pco/(pco+pCO2)超过反应(4)的平衡组成时,会发生铁的渗碳反应:2CO(气)─→CO2(气)+[C] (4)[C]表示溶解于铁中的碳。图2绘出了一系列 [C]含量下渗碳反应达到平衡时的气相组成与温度的关系曲线。此图直接示出在给定温度和[C]含量的情况下,气相对铁是渗碳还是脱碳。这类问题在钢的热处理时经常遇到。FeO是非化学计量化合物(见Fe-O 状态图),其中氧含量与其平衡气相组成的关系也在图2中绘出。