intermetallic
intermetallic
1. Structure and magnetic properties of (Nd_xR_(1-)x)_3Fe_(24)Cr_5 (R = Gd and Tb) intermetallic compounds
(Nd_xR_(1-x))_3Fe_(24)Cr_5(R=Gd,Tb)金属间化合物的结构与磁性
2. LIQUIDUS AND INTERMETALLIC COMPOUND IN Al-RICH REGION OF Al-Mg-Ce SYSTEM
Al-Mg-Ce体系富Al区液相限及其金属间化合物的研究
3. Al3Ti intermetallic compound
Al3Ti金属间化合物
4. aluminium titanium carbidc intermetallic
AlTiC中间合金
5. B2-NiTi intermetallic compound
B2-NiTi
6. B2 type yttrium based intermetallic compound
B2型Y(钇)基金属间化合物
7. Er2-xCexFe17 intermetallic compounds
Er2-xCexFe17金属间化合物
8. Fe-Al intermetallic compound coating
Fe-Al金属间化合物涂层
9. Fe3Al intermetallic compound
Fe3Al金属间化合物
10. FeAl intermetallic compound coating
FeAl金属间化合物涂层
11. It is supposed that the Heusler phase solution resulting from the strong magnetic field treatment improves the mechanical property of the NiAl intermetallic alloy.
Heusler相在晶界处析出可能是导致合金室温强度低、韧性差的主要原因,强磁场处理改善了这一情形,使合金固溶强化加强,提高其力学性能。
12. LaCo13-based intermetallic compounds
LaCo13基金属间化合物
13. Mg-Ce intermetallic compound
Mg-Ce金属间化合物
14. Intermetallic compounds of Mn and Ge exhibit antiferromagnetic or ferrimagnetic with rather low ordering temperatures.
Mn3Ge作为一种新型的铁磁性化合物,对于其磁性和电子结构方面,仍缺乏理论和实验的分析。
15. intermetallic compound MoSi2
MoSi2金属间化合物
16. NaZn13-type intermetallic compounds
NaZn13型金属间化合物
17. Ni-Al intermetallic compound
Ni-Al系金属间化合物
18. Ni2Al3 intermetallic compound
Ni2Al3金属间化合物
19. Ni3Al-based intermetallic compound
Ni3Al基金属间化合物
20. Ni3Al-based intermetallic alloys
Ni3Al基金属间合金
21. NiAl-Ta-Cr intermetallic compound
NiAl-Ta-Cr金属间化合物
22. A STUDY OF THE MECHANICAL PROPERTIES OF POLYCRYSTALLINE AND SINGLE CRYSTAL OF NiAl-BASED INTERMETALLIC ALLOYS
NiAl基金属间化合物多晶和单晶合金的力学性能研究
23. Elevated Temperature and Superplastic Deformed Behavior and Mechanism in NiAl Intermetallic Alloys
NiAl系金属间化合物合金的超塑性和高温变形及其机理
24. NiA1 intermetallic compounds
NiAl金属间化合物
25. The obtained coating component is NiAl intermetallic compound when the percent ratio of Ni is 50%wt, and the obtained coating component is Ni3Al and NiAl3 when the percent ratio is 75%wt.
Ni粉的含量为50%wt时得到的涂层的成分为NiAl金属间化合物,而当Ni粉的含量为75%wt得到的涂层成分为Ni3Al和NiAl3。
26. STRUCTURE AND MAGNETIC PROPERTIES OF R(Fe, M)n (R = Y,Nd,Sm,Gd,Tb,Dy,Ho,Er;M = Ti,V) INTERMETALLIC COMPOUNDS
R(Fe,M)_(12)(R=Y,Nd,Sm,Gd,Tb,Dy,Ho,Er;M=Ti,V)金属间化合物结构及磁性的研究
27. The Microstructure of Intermetallic Compound-ceramic Lining in Composite Pipe Prepared by SHS-centrifugal
SHS-离心复合钢管金属间化合物-陶瓷内衬的显微组织
28. Ti-22Al-25Nb intermetallic alloy
Ti-22Al-25Nb合金
29. Ti-Al intermetallic compound
Ti-Al金属间化合物
30. TiAl-matrix intermetallic compounds have become one of the hottest high-temperature structural materials recently, due to its excellent high-temperature properties and lower density.
TiAl基金属间化合物因具有优良的高温性能和较低的密度,从而成为目前世界上研究最为热门的高温结构材料之一。
31. Microstructure characteristic and fracture appearance of joint of TiAl intermetallic compound by electron beam welding
TiAl基金属间化合物电子束焊接接头组织特征及断裂形貌
32. Effect of Ti on the microstructures and properties of ceramic bonded joints with intermetallic compounds
Ti对金属间化合物增强陶瓷钎焊接头组织与性能的影响
33. Y-based intermetallic compound
Y基金属间化合物
34. Zn-Fe intermetallic compounds
Zn-Fe金属间化合物
35. Liu Y F, Wang H M.Microstructure and wear resistance of laser clad Ti5Si3 reinforced wear resistant intermetallic composite coating[J].Tribology, 2003, 23 (1): 10-13.
[10]刘元富,王华明.激光熔覆Ti5Si3增强金属间化合物耐磨复合材料涂层组织及耐磨性研究[J].摩擦学学报, 2003, 23 (1): 10-13.
36. TANG Zhao-lin, WANG Fu-hui, WU Wei-tao.Corrosion and protection of high temperature Ti-based alloys and Ti-Al intermetallic compounds[J].Rare Metals, 1996, 20(4): 291-296.
[4]唐兆麟,王福会,吴维(山文).高温钛合金及钛铝金属间化合物的腐蚀与防护[J].稀有金属,1996,20(4):291-296.
37. HIGH TEMPERATURE OXIDATION OF TWO-PHASE NiAl-Fe INTERMETALLIC COMPOUNDS
两相NiAl-Fe金属间化合物的高温氧化行为研究
38. intermetallic phase particle
中间金属相微粒
39. In order to alleviate the problems, low dielectric constant (k) materials are used to replace the conventional intermetal dielectric (IMD), SiO2.
为了改善这些问题,使用低介电常数材料作为导线间的介电层为必要选择。
40. Based on pseudopotential theory, with the dissembling of crystal framework, this paper calculated the atom potentials in the intermetallic compound Fe 3Al.
以矿物晶体结构、晶体化学理论为基础,根据镁电气石的晶胞参数、原子排列的特点等,提出了其最小纳米微粒的假设。
41. The results of Auger Electron Spectroscopy (AES) and Energy Dispersive Analysis X-ray Spectroscopy(EDAS) measurements show that the interface layer contains Au-Ga intermetallic compound and impurity P,Si.
借助俄歇能谱(AES)和能量色散谱(EDAS)初步分析了Au-Si/n-GaP系统接触的界面含有Au-Ga金属间化合物以及P和Si杂质。
42. Synthesis of several rare-earth intermetallic compounds and determination of their crystalline structure
几种稀土金属间化合物的配制及结构测定
43. Reinforcement of Ceramic Bonded Joints with Intermetallic Compounds
利用金属间化合物增强陶瓷钎焊接头
44. Strength of Ceramic Joints Bonded with Reinforcements of Intermetallic Compounds
利用金属间化合物增强陶瓷钎焊接头强度
45. Keywords diode laser soldering;lead-free soldered joint;intermetallic compound;microstructure;
半导体激光软钎焊;无铅焊点;金属间化合物;显微组织;
46. semiconducting intermetallic compound
半导体金属互化物
47. The cell model consists of two phases: the aluminum alloy matrix and the intermetallic cluster.
单胞模型由两相材料组成:铝合金基体和金属强化物。
48. Research on Detrimental Intermetallic Phase Test of Duplex Stainless Steel
双相不锈钢有害沉淀相检验的探讨
49. The element composition, microstructure and microhardness of the laminated intermetallic composite show periodic variation,and gradual change at the interface between two neighboring layers.
叠层复合材料的元素成分、显微组织和显微硬度均呈周期性变化,界面存在渐变过渡。
50. Effects of the Thickness of Intermetallic Layer on High Temperature Oxidation-resistance of Hot-dipped Al Coating
合金层厚度对热浸镀铝件抗氧化性能的影响
51. Keywords NiAl intermetallic;empirical electron theory of so lids and moleculars;valence electron structure;
固体与分子经验电子理论;价电子结构;
52. There are three kinds of casting defects during the forming aluminizing layer by casting: oxide defects, wanting aluminizing and cracks in the intermetallic layer.
在铸造形成渗铝层过程中,主要会出现氧化物缺陷、渗铝不充分、粘结层开裂三种形式的铸造缺陷。
53. Keywords composite surface treatment;intermetallic layers;structure;wear and corrosion resistance;
复合表面处理;金属间化合物层;结构;耐磨防腐;
54. Its comprehensive coverage focuses on properties, applications, fabrication techniques, and effects of production processes on properties of this important class of intermetallic alloys.
它的主题报导包括:轻量材料的发展;部件设计和性能;材料选择和替代;材料特性。
55. Its comprehensive coverage focuses on development, properties, production, and application of intermetallic alloys and their composites in aerospace components.
它的广泛报导集中在基与增强、偶联剂和其它表面预处理之间对改进纤维基粘附力的交互作用。
56. This paper reviews the R&D status and prospect on high temperature ordered intermetallic alloysin the world and China.
对有序金属间化合物结构材料的现状和发展做了简要回顾,特别对我国的发展情况做了评述。
57. Agglomerate intermetallic compounds
底结物
58. Keywords Diffusion couples;Penetration coefficient;Intermetallic compound;Peritectic transformation;
扩散偶;渗透系数;金属间化合物;包晶转变;
59. We have studied exploringly the new organic aerogel hydrogen storage, the theory of metal small clusters and nano intermetallic compound materials.
探索了新型有机气凝胶储氢材料,开展了金属小团簇理论研究和纳米金属复合材料的研究工作。
60. Keywords aluminium addition;intermetallic compound;mechanical alloying;emulsion;electric field;desulfurization;
掺铝;金属间化合物;机械合金化;乳化;电场;脱硫;
61. Abstract: The formation and transformation of intermetallic compounds in AA1235 aluminium sheets for foils in medium temperature range in which recrystallization occurs was systematically studied.
摘 要: 研究了AA1235铝箔坯料中温温度范围内相形成和转变的规律。
62. Abstract: Low dielectric constant ( low k ) films used as intermetal or interlevel dielectrics can minimize interconnect resistancePcapacitance ( RC) delay,power consumption and cross talk of ULSI.
摘要: 用低介电常数介质薄膜作金属线间和层间介质可以降低超大规模集成电路(ULSI) 的互连延迟、串扰和能耗。
63. Low dielectric constant (low k) films used as intermetal or interlevel dielectrics can minimize interconnect resistance/capacitance (RC) delay, power consumption and cross talk of ULSI.
摘要用低介电常数介质薄膜作金属线间和层间介质可以降低超大规模集成电路(ULSI)的互连延迟、串扰和能耗。
64. Keywords lead free solder;alloying element;interfacial reaction;intermetallic compound;
无铅钎料;合金元素;界面反应;金属间化合物;
65. A study on the magnetic properties of ordered and disordered FeAl intermetallic
有序和无序FeAl的磁性能研究
66. * There is found that crack at Intermetallic Compound when mixed solder with Lead Free Solder and Lead Solder.
有铅焊料与无铅焊料混合焊接时,在合金层中发现了裂纹。
67. Keywords mechanical alloying amorphization intermetallic compound;
机械合金化;非晶;金属间化合物;
68. Some metals, such as iron, cobalt and nickel, are magnetic. At low temperatures, some metals and intermetallic compounds become superconductors.
某些金属能被磁化,例如铁、钴和镍。在极低的温度下,某些金属和金属化合物能转变成超导体。
69. Keywords alumina/iron-aluminide intermetallic compound;crack growth resistance curve;bridging;toughening;composites;
氧化铝/铝铁金属间化合物;裂纹扩展阻力曲线;桥联;增韧;复合材料;
70. Influence of Additional Elements on Elevated Temperature Properties of Fe_3Al Intermetallic Compounds
添加元素对Fe_3Al金属间化合物高温性能的影响
71. Keywords laser cladding;intermetallic compound;nanocrystal;amorphous;
激光熔覆;金属间化合物;纳米晶;非晶;
72. Wear Resistance of Laser Clad TiC Reinforced FeAl Intermetallic Matrix Composite Coatings
激光熔覆TiC增强FeAl金属间化合物基复合材料涂层磨损性研究
73. Keywords thermal mechanical fatigue (TMF);intermetallic compound;crack growth;in-phase;out phase;
热/机械疲劳;金属间化合物;裂纹扩展;同相位;反相位;
74. Keywords hotdip;intermetallic layer;mathematic model;growth kinetics;
热镀;化合物层;数学模型;生长动力学;
75. Keywords solder;intermetallic compound;aging;interface layer;
焊料;金属间化合物;时效;界面层;
76. Uniform and refined equaxial grains could be observed in welding zone, and the coarsening intermetallic compounds of 5083 are refined and spheroidized after welding.
焊道显微组织为均匀且细小的等轴晶粒,而5083中粗大的晶出物亦细化且圆钝化。
77. Keywords infiltration;copper-aluminum alloy;intermetallic compound;
熔渗;铜铝合金;金属间化合物;
78. The crystal and magnetic structures and magnetic properties of Nd_3Fe_(20)C_x intermetallic compounds have been studied by X-ray diffraction and neutron diffraction analysis and magnetic measurements.
用X射线衍射、磁测量和中子衍射对Nd_2Fe_(20)C_x化合物的晶、磁结构和基本磁性进行了研究。
79. Low dielectric constant ( low k ) films used as intermetal or interlevel dielectrics can minimize interconnect resistancePcapacitance ( RC) delay,power consumption and cross talk of ULSI.
用低介电常数介质薄膜作金属线间和层间介质可以降低超大规模集成电路(ULSI) 的互连延迟、串扰和能耗。
80. Low dielectric constant(low k) films used as intermetal or interlevel dielectrics can minimize interconnect resistance/capacitance(RC) delay,power consumption and cross talk of ULSI.
用低介电常数介质薄膜作金属线间和层间介质可以降低超大规模集成电路(ULSI)的互连延迟、串扰和能耗。
