1) piezomagnetic properties
压磁性能
1.
Study on piezomagnetic properties of amorphous strips surface covered silicon rubber;
硅橡胶表面状态的非晶带材压磁性能的研究
2.
Effect of surface processing and temperature on piezomagnetic properties of Fe-based amorphous strips;
表面处理和温度对铁基非晶带材压磁性能的影响
3.
The piezomagnetic properties of the FeCuNbSiB alloy strips were investigated by point stress,the structure and phase change of the strips were observed by X-ray diffraction and DSC, respectively, the impedance of the strips were measured by a 4292A impedance analyzer at room temperature.
采用点压方式研究非晶FeCuNbSiB带材的压磁性能,利用X-Ray测试带材结构,用DSC确定相转变,用4294A阻抗分析仪测试阻抗。
2) magnetic performance
磁性性能
3) electromagnetic property
电磁性能
1.
The electric conductivity and electromagnetic property of TPI/CNTs composites were studied.
用紫外光辐照法制备了反式-1,4-聚异戊二烯(TPI)/碳纳米管(CNTs)复合材料,研究了复合材料的导电性能和电磁性能。
2.
The influence of the parameter of heat treatment technique on electromagnetic property of silicon steel slice is inquired into here.
探讨了热处理工艺参数对硅钢片电磁性能的影响。
3.
The electromagnetic property of the composites with different contents of MWCNTs in the wave band from 0.
5~18 GHz频段,不同碳纳米管含量对复合材料电磁性能的影响。
4) magnetic property
磁学性能
1.
The investigations have been made on the preparation process, starting crystallization temperature, curie temperature and magnetic property of cobalt base and iron-nickel base amorphous soft magnetic alloys.
研究了钴基和铁镍基两种非晶态软磁合金薄带的制备工艺,用示差热分析法测量了合金的起始晶化温度和居里温度,用冲击检流计法测量了合金的静态磁学性能。
2.
Whereas the study on magnetic property of Co-Cu-B alloy powder was most infrequency in material field.
然而材料界对Co-Cu-B合金粉末磁学性能的研究却尚未见报道。
3.
The results indicate that the NiZnCo ferrite films were deposited on Si andα-Al_2O_3 substrates by 900℃-thermal decomposition of LDHs with the initial molar ratio of Co~(2+)/Zn~(2+)of 3/1,2/2 and 1/3,respectively,and the NiZnCo ferrite film crystal granular exhibits good magnetic property.
通过对LDHs前驱体组成、焙烧温度等制备工艺参数的调控,得到了具有特殊表面形貌及优异磁学性能的NiZnCo铁氧体薄膜材料。
5) magnetic property
磁性能
1.
Shape and magnetic property of nickel nano-material;
纳米镍粉的形貌与磁性能
2.
Preparation and magnetic property of nickel nanowire by direct-current electrodeposition;
直流电沉积法制备镍纳米线(阵列)及其磁性能研究
3.
Relation between evolution of annealing texture and magnetic property of non-oriented silicon steel;
无取向硅钢退火织构的演变与磁性能关系的研究
6) magnetic properties
磁性能
1.
Heat treatment and magnetic properties of ferromagnetic bulk glassy alloy prepared by SPS;
放电等离子烧结铁磁性大块非晶的晶化处理及其磁性能研究
2.
Study on the magnetic properties of the nanocomposite Nd_(8.5)Fe_(76.6-x)Ga_xCo_5Zr_(2.7)B_(6.2)(x=0~0.5) bonded magnet;
纳米晶复合Nd_(8.5)Fe_(76.6-x)Ga_xCo_5Zr_(2.7)B_(6.2)(x=0~0.5)粘结磁体磁性能的研究
3.
Preparation of SiO_2/Ni core-shell structured nanoparticles and their magnetic properties;
SiO_2/Ni核壳结构纳米粒子的制备及其磁性能
补充资料:磁性材料2.薄膜磁性材料
磁性材料2.薄膜磁性材料
Magnetie Materials 2.Thin Film
在一定外加磁场作用下,其反磁化畴(磁矩取向与外磁场方向相反的畴)变为圆柱形磁畴。从膜面上看,这些柱形畴好像浮着的一群圆泡,故称磁泡或叫泡踌(另见磁性材料2.昨晶态磁性材料)。在特定的电路图形、电流方向和一定磁场情况下,可做到控制材料中磁泡的产生、传翰和消失,实现信息的储存和逻辑运算的功能。磁泡的直径在微米量级(0 .5~5协m),每个磁泡的迁移率在1 .26~12.6em八s·A/m)〔 102一i03cm八s·oe)〕,因而可制成存储密度为兆位/cmZ(Mbit/cmZ)和数据处理速率为兆位/s(M肠t/s)的运算器件。磁泡器件经过近20年研究和开发,已取得广泛的实际应用。 对磁泡材料的主要要求是:(l)各向异性常数凡>粤斌,磁化强度从>外磁场强度H;(2)杂质缺陷小,2一~”~’.J泌~-一‘产’~~一~一’、~尹一~~~’J”均匀性好。目前研究得比较清楚的有铁氧体单晶薄膜和稀土一过渡金属薄膜。从制备工艺和性能稳定、器件开发等情况看,以铁氧体磁泡材料比较成熟,早期是用钙钦石型铁氧体单晶片来作磁泡材料,后为YIG单晶薄膜所取代。它是用液相外延法在Gd3Ga5OI:(简称GGO)基片上生成的单晶薄膜,其厚为微米量级。表4为稀土石榴石R3FesolZ的磁性;表5为一些磁泡材料的基本特性数值。农4稀土石抽石R.Fe‘ol,的磁性┌───────────┬────┬────┬────┬────┬────┬────┬────┬────┬─────┬────┬────┐│R │Y │Sm │EU │Gd │Tb │Dy │、Ho │Er │T】11 │Yb │Lu │├───────────┼────┼────┼────┼────┼────┼────┼────┼────┼─────┼────┼────┤│补偿温度,~p,K │ 560 │ 560 │ 570 │ 290 │ 246 │ 220 │ 136 │ 84│4
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条