稀有金属
稀有金屬
희유금속
CHINESE JOURNAL OF RARE METALS
2009年
6期
816-820
,共5页
侯碧辉%刘凤艳%刘国庆%徐劳立%韩晓东%毛圣成
侯碧輝%劉鳳豔%劉國慶%徐勞立%韓曉東%毛聖成
후벽휘%류봉염%류국경%서로립%한효동%모골성
TiNi合金%电磁性能%表观顺磁性
TiNi閤金%電磁性能%錶觀順磁性
TiNi합금%전자성능%표관순자성
TiNi alloy%electromagnetism%apparent paramagnetism
研究TiNi合金的宏观电磁性质与微观电子态的关系. 由TiNi合金样品的霍尔效应实验得出样品的霍尔系数为9.6×10-6 Ωm·T~(0.1). 由霍尔系数求得电子浓度n为6.5×10~(23)/m~3, 比金属电子浓度n的值小5个量级, 电学性质比金属弱得多. 而磁性测量得出TiNi合金中有很少的铁磁性晶粒, 但铁磁相很弱, 顺磁相为主相. 样品的表观顺磁磁化率为χ=(2.55±0.01)×10~(-4)(SI), 实际的顺磁磁化率的数值为4.3×10~(-4)(SI), 比金属的Pauli顺磁磁化率的数值大一个量级. TiNi合金与金属相比, 电性弱而磁性强. 电磁实验结果证明TiNi合金未满的3d与4s电子杂化后成为巡游电子, 与金属的公有化电子相比, 它们的载流能力减弱, 而局域磁性增强.
研究TiNi閤金的宏觀電磁性質與微觀電子態的關繫. 由TiNi閤金樣品的霍爾效應實驗得齣樣品的霍爾繫數為9.6×10-6 Ωm·T~(0.1). 由霍爾繫數求得電子濃度n為6.5×10~(23)/m~3, 比金屬電子濃度n的值小5箇量級, 電學性質比金屬弱得多. 而磁性測量得齣TiNi閤金中有很少的鐵磁性晶粒, 但鐵磁相很弱, 順磁相為主相. 樣品的錶觀順磁磁化率為χ=(2.55±0.01)×10~(-4)(SI), 實際的順磁磁化率的數值為4.3×10~(-4)(SI), 比金屬的Pauli順磁磁化率的數值大一箇量級. TiNi閤金與金屬相比, 電性弱而磁性彊. 電磁實驗結果證明TiNi閤金未滿的3d與4s電子雜化後成為巡遊電子, 與金屬的公有化電子相比, 它們的載流能力減弱, 而跼域磁性增彊.
연구TiNi합금적굉관전자성질여미관전자태적관계. 유TiNi합금양품적곽이효응실험득출양품적곽이계수위9.6×10-6 Ωm·T~(0.1). 유곽이계수구득전자농도n위6.5×10~(23)/m~3, 비금속전자농도n적치소5개량급, 전학성질비금속약득다. 이자성측량득출TiNi합금중유흔소적철자성정립, 단철자상흔약, 순자상위주상. 양품적표관순자자화솔위χ=(2.55±0.01)×10~(-4)(SI), 실제적순자자화솔적수치위4.3×10~(-4)(SI), 비금속적Pauli순자자화솔적수치대일개량급. TiNi합금여금속상비, 전성약이자성강. 전자실험결과증명TiNi합금미만적3d여4s전자잡화후성위순유전자, 여금속적공유화전자상비, 타문적재류능력감약, 이국역자성증강.
The relationship between the macroscopic electromagnetic property and microscopic electron state was studied. The Hall coefficient of the TiNi alloy sample obtained by Hall effect experiment was 9.6×10~(-6) Ωm·T~(-1). The electron density was 6.5×10~(23)/m~3 according to the Hall coefficient, it was 5 orders of magnitude less than the electron density of typical metals, and had much weaker electrical property than that of metals. The magnetism measurement showed that there were few ferromagnetic crystal grains in TiNi alloy. Since the ferromagnetic crystal grains were only a small portion of the sample, the ferromagnetic phase was weak and the paramagnetic phase was the main phase. The apparent paramagnetic susceptibility χ of the sample was (2.55±0.01)×10~(-4)(SI) and the actual value of the paramagnetic susceptibility was 4.3×10~(-4)(SI), both of them were one order greater than that of the Pauli paramagnetic susceptibilities of typical metals. Compared with metals, the electricity of TiNi alloy was weaker and the magnetism was stronger. The experiments mentioned above proved that the unfilled 3d and 4s electrons of the TiNi alloy became itinerant electrons after being hybridized. Compared with free electron of metals, the current carrying capacity was lowered, while the local magnetism was enhanced.