1) bonded Ni 52Mn 24.4Ga 23.6 magnets
粘结Ni52Mn244Ga236磁体
2) bonded magnet
粘结磁体
1.
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
2.
Development of Injection Moulded PVC Bonded Magnet;
注射成型聚氯乙烯粘结磁体的研制
3.
Effects of particle size on the properties of the injection bonded magnets;
粉末粒度对注射粘结磁体性能的影响
3) bonded magnets
粘结磁体
1.
Research progress in NdFeB bonded magnets with different polymer matrix
NdFeB塑料粘结磁体的研究进展
2.
758 and the optimal magnetic properties of the bonded magnets.
7Bx粘结磁体出现最佳性能,其剩磁和最大磁能积分别为Br=0。
3.
The effect of thermosetting temperature and time on magnetic propertites and compressive strength of bonded magnets were studied.
通过快淬NdFeB磁粉,用粘结方法制备了NdFeB粘结磁体,并研究了在制备过程中,固化温度、固化时间等工艺参数对粘结NdFeB磁体磁性能和抗压强度的影响规律及其影响机理。
5) bonded NdFeB magnet
粘结NdFeB磁体
1.
Preparation technology of the bonded NdFeB magnet;
粘结NdFeB磁体的制备工艺
2.
Effect of forming technology on mechanical properties of bonded NdFeB magnet;
成型工艺对粘结NdFeB磁体力学性能的影响
3.
Effect of presing processes on structure and magnetic properties of the bonded NdFeB magnet;
成形工艺对粘结NdFeB磁体结构和磁性能的影响
6) NdFeB bonded magnet
NdFeB粘结磁体
1.
Study on properties of anisotropic NdFeB bonded magnet produced by molding compression
模压成形各向异性NdFeB粘结磁体性能研究
2.
The effect of particle size and its distribution of magnetic powder and different antioxidant on magnetic properties of NdFeB bonded magnets by injection moulding is studied.
本文研究了磁粉的粒度分布以及不同抗氧化剂的加入对注射成型NdFeB粘结磁体密度和磁性能的影响。
3.
ABSTRACT: The addition of different additives taking an effect on the properties of NdFeB bonded magnets byinjection moulding.
本文研究了各种添加剂的加入对注射成型NdFeB粘结磁体性能的影响。
补充资料:锔244
分子式:
CAS号:
性质:244Cm半衰期为17.6年的。辐射体。它是在反应堆中用中子辐照239Pu、242Pu或243Am,按下列核反应过程形成的:239Pu(n,γ)240Pu(n,γ)241Pu(n,γ)242Pu(n,γ)243Pu243Am(n,γ)244Am244Cm244Cm的α衰变比释热率为2.8W/g 244Cm,可用作长寿命的放射性热源和同位素电池。进一步辐照244Cm可制备更高质量数的锔同位素和超锔元素。
CAS号:
性质:244Cm半衰期为17.6年的。辐射体。它是在反应堆中用中子辐照239Pu、242Pu或243Am,按下列核反应过程形成的:239Pu(n,γ)240Pu(n,γ)241Pu(n,γ)242Pu(n,γ)243Pu243Am(n,γ)244Am244Cm244Cm的α衰变比释热率为2.8W/g 244Cm,可用作长寿命的放射性热源和同位素电池。进一步辐照244Cm可制备更高质量数的锔同位素和超锔元素。
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