1)Ni3AlNi_3Al
1.HIGH TEMPERATURE DEFORMATION BEHAVIOURS OF DIRECTIONALLY SOLIDIFIED Ni3Al ALLOY;定向凝固Ni_3Al合金高温变形行为的研究
2.Ordering. Brittlieness and Ductility of Ni3Al;Ni_3Al的有序性、脆性及塑性
3.INFLUENCE OF CERIUM ON THE BEHAVIOUR OF Ni3Al;铈对Ni_3Al性能的影响
英文短句/例句
1.MICROSTRUCTURE AND COMPRESSIVE PROPERTY OF Ni3Al ALLOYS;Ni_3Al的显微组织与压缩性能
2.Study on the Constitutive Relations of Ni_3Al-Based Intermetallics Compound;Ni_3Al基金属间化合物本构关系研究
3.Fabrication and Properties of Ni_3Al/Al_2O_3 Nanocomposites纳米Ni_3Al/Al_2O_3复合陶瓷的制备及性能研究
4.Preparation of porous Ni_3Al material by blend element采用混合元素法制备多孔Ni_3Al材料
5.Progress in research on Ni_3Al intermetallic alloysNi_3Al金属间化合物的研究进展
6.Research Progress of Ni_3Al-based Intermetallic AlloysNi_3Al基金属间合金的研究进展
7.Effect of Al content on solidification behavior of Ni_3Al-base IC10 alloyAl含量对Ni_3Al基IC10合金凝固行为的影响
8.Wettability and Preparation of Ni_3Al/TiC System Composite Materials;Ni_3Al/TiC体系的润湿性及其复合材料的制备
9.The Preparation, Structure and Properties of TiC/Ni_3Al Composites;TiC/Ni_3Al复合材料的制备及组织和性能研究
10.Study on Microstructure and Properties of Ni/Ni_3Al Microlaminate Sheets Deposited by EB-PVD;EB-PVD制Ni/Ni_3Al微叠层板的组织结构及性能研究
11.Fabrication of in Situ TiC Particulate Reinforced Ni_3Al Surface Coating on Steel Substrate原位TiC颗粒增强Ni_3Al钢表面复合涂层的制备
12.Molecular Dynamics Study of Crack Propagation Behavior in Ni_3AlNi_3Al预制初裂纹扩展行为的分子动力学研究
13.Effect of Heat Treatment on Microstructure and Stress Rupture Properties of a Ni_3Al Base Single Crystal Alloy IC6SX热处理对Ni_3Al基单晶合金IC6SX组织和性能的影响
14.Study on Molten Structure of Ni_3Al Alloy by High Temperature X-ray DiffractionNi_3Al合金熔体结构的高温X射线衍射分析
15.Manufacturing TiC/Ni_3Al Composites by Using Pressureless Melt Infiltration Processing无压熔渗法制备TiC/Ni_3Al复合材料的渗入工艺研究
16.EFFECT OF POROUS PREFORMS ON POROSITY OF PREPARED TiC/Ni_3Al COMPOSITES多孔预制件对TiC/Ni_3Al复合材料孔隙率的影响
17.Spatially selected intermetallic reaction of Ni_3Al by laser interference structuring激光干涉空间选择性形成金属间化合物Ni_3Al
18.Microscopic Phase-Field Study of Antisite Defect of Ni_3Al in High Al Concentration Ni_(75)Al_xV_(25-x)Alloy微观相场法研究高铝Ni_(75)Al_xV_(25-x)中Ni_3Al反位缺陷
相关短句/例句
Ni_3Al phaseNi_3Al相
3)Mo/Ni_3AlM_o/Ni_3Al
4)L1_2(Ni_3Al)phaseL1_2(Ni_3Al)相
5)Ni3Al(B) alloyNi_3Al(B)合金
6)Ni_3Al Mo alloyNi_3Al-Mo合金
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 superalloy N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)
