Fe基纳米晶合金,Fe-based nanocrystalline alloys
1)Fe-based nanocrystalline alloysFe基纳米晶合金
1.5 B_9 nanocrystalline alloy, we proposed a model for exploring the influence of the mesoscopic structure on the soft magntic properties of this kind ofFe-based nanocrystalline alloys, and calculate the frequency function—D-function for the soft magntic properties of Fe_ 73.根据实验研究成果提出纳米晶合金软磁性能受其介观结构影响的观点,建立了Fe基纳米晶合金的球状介观结构模型,分别求出只有交变磁场或交变磁场和静磁场作用时纳米晶粒球的频率函数——D函数。
2)Fe-based amorphous and nanocrystalline alloyFe基非晶纳米晶合金
3)amorphous and nanocrystalline Fe-based alloys非晶纳米晶Fe基合金
4)nano-grain Fe-Ni alloy纳米晶Fe-Ni合金
5)Fe-based nanocrystallineFe基纳米晶
1.Study of effects of frequency shift onFe-based nanocrystalline giant magnetoimpedance;磁致频移对Fe基纳米晶巨磁阻抗效应影响的研究
2.The preparing technology ofFe-based nanocrystalline bonded soft magnetic materials was discussed systematically,the bonded magnet from rapid quenched Fe74CulNb3Si13B9 powder was produced.系统地论述了Fe基纳米晶粘结软磁材料的制备工艺,采用快淬磁粉,选择固态环氧树脂作粘结剂, 通过粘结方法,制备了Fe基纳米晶粘结磁体。
3.Magnetoimpedances ofFe-based nanocrystalline ribbon (FNR) in both LC- and L-modes were investigated by 4294A impedance analyzer.用4294A型阻抗分析仪研究Fe基纳米晶薄带(FNR)两种驱动模式(LC模式和L模式)的磁阻抗,发现LC模式阻抗频谱在外磁场作用下有显著的频移现象。
英文短句/例句
1.On the GMI of Fe-Based Nanocrystalline Wire Driven by Different Methods;不同驱动方法下Fe基纳米晶丝的GMI研究
2.The Study on the Effect of Annealling Temperature to the Fe-based Amorphous Structure退火温度对Fe基纳米晶薄带结构特性影响研究
3.The Preparation of Fe-Ni-Si-C by Mechanical Alloying and the Studies of Its Magnetic Properties;机械合金化制备Fe基纳米晶、非晶合金粉末及其磁性性能研究
4.Study on Fe-based Amorphous-nanocrystalline Coatings by Laser Cladding;Fe基非晶—纳米晶激光熔覆涂层研究
5.Crystallization and Electrochemical Corrosion Behaviors of Amorphous and Nanocrystalline Fe-Based AlloysFe基非晶和纳米晶合金晶化及电化学腐蚀行为
6.Studies on Mesostructure and Characteristic of Fe-Based Amorphous and Nanocrystalline Ribbons;Fe基非晶、纳米晶薄带的介观结构及特性研究
7.Study on Preparation and Magnetic Properties of Nd-Fe-Based Bulk Metallic Glass Composite Materials;Nd-Fe基非晶/纳米晶复合材料的制备与磁性能研究
8.Nanocrystallization and Soft Magnetic Properties of Fe-based Amorphous Alloy Annealed under Electric Field and PressureFe基非晶合金在电场和压力作用下的纳米晶化和软磁性能研究
9.Electromagnetic Wave Absorption Properties of Nano-Crystalline SmN/α-Fe and SmO/α-Fe Composite纳米晶SmN/α-Fe及SmO/α-Fe复合材料的吸波特性
10.Investigation on Nanocrystalline Fe-N Thin Films Grown by Direct Current Magnetron Sputtering;直流磁控溅射纳米晶Fe-N薄膜的研究
11.The electrodeposition process and property of nanocrystalline Ni-Fe alloys纳米晶Ni-Fe合金电沉积工艺及性能
12.Nanocrystalline and Amorphous Al-Fe-Ni-Ce Alloys Obtained by Mechanical Alloying;机械合金化制备Al-Fe-Ni-Ce纳米晶和非晶态合金
13.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
14.α-Fe/NdFeB Nanocomposite Magnets Prepared by Annealing Amorphous Alloy and High Pressure Torsion Deformation;非晶晶化和高压扭转变形制备α-Fe/NdFeB纳米晶复合永磁材料
15.Study on the Structrue and Magnetic Properties of NdFeB/α-Fe Nanocomposites Containing Intergranular Amorphous Phase;具有晶间非晶相的NdFeB/α-Fe纳米晶结构和磁性的研究
16.Preparation and Microstructures of Al-Cu-Fe Nano-quasicrystalline Materials;Al-Cu-Fe纳米准晶材料的制备和结构研究
17.Investigation on Magnetic Properties of Nanocrystalline Fe-Co-Cu-Nb-Si-B Soft Magnetic Alloys;纳米晶Fe-Co-Cu-Nb-Si-B软磁合金磁性的研究
18.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
相关短句/例句
Fe-based amorphous and nanocrystalline alloyFe基非晶纳米晶合金
3)amorphous and nanocrystalline Fe-based alloys非晶纳米晶Fe基合金
4)nano-grain Fe-Ni alloy纳米晶Fe-Ni合金
5)Fe-based nanocrystallineFe基纳米晶
1.Study of effects of frequency shift onFe-based nanocrystalline giant magnetoimpedance;磁致频移对Fe基纳米晶巨磁阻抗效应影响的研究
2.The preparing technology ofFe-based nanocrystalline bonded soft magnetic materials was discussed systematically,the bonded magnet from rapid quenched Fe74CulNb3Si13B9 powder was produced.系统地论述了Fe基纳米晶粘结软磁材料的制备工艺,采用快淬磁粉,选择固态环氧树脂作粘结剂, 通过粘结方法,制备了Fe基纳米晶粘结磁体。
3.Magnetoimpedances ofFe-based nanocrystalline ribbon (FNR) in both LC- and L-modes were investigated by 4294A impedance analyzer.用4294A型阻抗分析仪研究Fe基纳米晶薄带(FNR)两种驱动模式(LC模式和L模式)的磁阻抗,发现LC模式阻抗频谱在外磁场作用下有显著的频移现象。
6)Fe-Cu-Nb-Si-B nanocrystalline alloyFe-Cu-Nb-Si-B 纳米晶合金
延伸阅读
看纺织印染中应用纳米材料和纳米技术纺织印染中应用纳米材料和纳米技术时,除了要解决纳米材料的制备技术之外,重要的是要解决好纳米材料的应用技术,其中关键问题是使纳米粒子和纺织印染材料的基本成分(即聚合物材料)之间处于适当的结合状态。印染中,纳米粒子在聚合物基体中的分散和纳米粒子在聚合物表面的结合是主要的应用技术问题。 制备聚合物/无机纳米复合材料的直接分散法,适用于各种形态的纳米粒子。印染中纳米粒子的使用一般采用直接分散法。但是由于纳米粒子存在很大的界面自由能,粒子极易自发团聚,利用常规的共混方法不能消除无机纳米粒子与聚合物基体之间的高界面能差。因此,要将无机纳米粒子直接分散于有机基质中制备聚合物纳米复合材料,必须通过必要的化学预分散和物理机械分散打开纳米粒子团聚体,将其均匀分散到聚合物基体材料中并与基体材料有良好的亲和性。直接分散法可通过以下途径完成分散和复合过程: 高分子溶液(或乳液)共混:首先将聚合物基体溶解于适当的溶剂中制成溶液(或乳液),然后加入无机纳米粒子,利用超声波分散或其他方法将纳米粒子均匀分散在溶液(或乳液)中。有人将环氧树脂溶于丙酮后加入经偶联剂处理过的纳米TiO2,搅拌均匀,再加入 40wt%的聚酰胺后固化制得了环氧树脂/TiO2纳米复合材料。还有人将纳米SiO2粒子用硅烷偶联剂处理后,改性不饱和聚酯。 熔融共混:将纳米无机粒子与聚合物基体在密炼机、双螺杆等混炼机械上熔融共混。如将PMMA和纳米SiO2粒子熔融共混后,双螺杆造粒制得纳米复合材料。又如利用偶联剂超声作用下处理纳米载银无机抗菌剂粒子,分散制得PP/抗菌剂、PET/抗菌剂、PA/抗菌剂等复合树脂,然后经熔融纺丝工艺加工成抗菌纤维。研究表明,将经过表面处理的纳米抗菌剂粒子通过双螺杆挤出机熔融混炼,在聚合物中可以达到纳米尺度分散,获得了具有良好综合性能的纳米抗菌纤维,对大肠杆菌、金黄色葡萄球菌的抗菌率达到95%以上(美国AATCC-100标准)。 机械共混:将偶联剂稀释后与碳纳米管混合,再与超高分子量聚乙烯(UHMWPE)混合放入三头研磨机中研磨两小时以上。将研磨混合物放入模具,热压,制得功能型纳米复合材料。 聚合法:利用纳米SiO2粒子填充(Poly(HEMA))制备了纳米复合材料。纳米SiO2粒子首先被羟乙基甲基丙烯酸(HEMA)功能化,然后与HEMA单体在悬浮体系中聚合。还有利用SiO2胶体表面带酸性,加入碱性单体4-乙烯基吡咯进行自由基聚合制得包覆型纳米复合材料。
