上海大学学报(自然科学版)
上海大學學報(自然科學版)
상해대학학보(자연과학판)
JOURNAL OF SHANGHAI UNIVERSITY
2010年
1期
35-37,42
,共4页
侯雪玲%胡星浩%汪学真%曾智%徐晖%周邦新
侯雪玲%鬍星浩%汪學真%曾智%徐暉%週邦新
후설령%호성호%왕학진%증지%서휘%주방신
磁热效应%等温磁熵变%居里温度
磁熱效應%等溫磁熵變%居裏溫度
자열효응%등온자적변%거리온도
magnetocaloric effect%isothermal magnetic entropy change%Curie temperature
在研究Gd_5Si_(2-x)Ge_2Zn_x,Gd_5Si_(2-z)Ge_(2-z)Zn_(2z)系列合金的等温磁熵变和居里温度时发现,Zn的微量变化对合金的磁热性能影响很大.当x或者2z为0.001时,在1.5 T外加磁场变化下,其最大等温磁熵变分别为20.70 J/(kg·K)(x=0.001)和25.30 J/(kg·K)(2z=0.001),居里温度分别为284 K(x=0.001)和280 K(2z=0.001),其磁热性能远高于没有添加Zn元素的合金(5.03 J/(kg·K)).实验证明,微量元素Zn对GD_5Si_2Ge_2化合物的合金化处理,可使其在低磁场下的磁热效应得到巨幅提高,其最大等温磁熵变优于文献报道的铸锭合金Gd_5(Si_(1-y)Ge_y)_4及其他添加元素(如Ga,Sn,Cu,B,Al,Bi,Co,Fe,Ni,Mn,C,H等)替代Si或Ge时在5 T高外加磁场变化下的等温磁熵变.
在研究Gd_5Si_(2-x)Ge_2Zn_x,Gd_5Si_(2-z)Ge_(2-z)Zn_(2z)繫列閤金的等溫磁熵變和居裏溫度時髮現,Zn的微量變化對閤金的磁熱性能影響很大.噹x或者2z為0.001時,在1.5 T外加磁場變化下,其最大等溫磁熵變分彆為20.70 J/(kg·K)(x=0.001)和25.30 J/(kg·K)(2z=0.001),居裏溫度分彆為284 K(x=0.001)和280 K(2z=0.001),其磁熱性能遠高于沒有添加Zn元素的閤金(5.03 J/(kg·K)).實驗證明,微量元素Zn對GD_5Si_2Ge_2化閤物的閤金化處理,可使其在低磁場下的磁熱效應得到巨幅提高,其最大等溫磁熵變優于文獻報道的鑄錠閤金Gd_5(Si_(1-y)Ge_y)_4及其他添加元素(如Ga,Sn,Cu,B,Al,Bi,Co,Fe,Ni,Mn,C,H等)替代Si或Ge時在5 T高外加磁場變化下的等溫磁熵變.
재연구Gd_5Si_(2-x)Ge_2Zn_x,Gd_5Si_(2-z)Ge_(2-z)Zn_(2z)계렬합금적등온자적변화거리온도시발현,Zn적미량변화대합금적자열성능영향흔대.당x혹자2z위0.001시,재1.5 T외가자장변화하,기최대등온자적변분별위20.70 J/(kg·K)(x=0.001)화25.30 J/(kg·K)(2z=0.001),거리온도분별위284 K(x=0.001)화280 K(2z=0.001),기자열성능원고우몰유첨가Zn원소적합금(5.03 J/(kg·K)).실험증명,미량원소Zn대GD_5Si_2Ge_2화합물적합금화처리,가사기재저자장하적자열효응득도거폭제고,기최대등온자적변우우문헌보도적주정합금Gd_5(Si_(1-y)Ge_y)_4급기타첨가원소(여Ga,Sn,Cu,B,Al,Bi,Co,Fe,Ni,Mn,C,H등)체대Si혹Ge시재5 T고외가자장변화하적등온자적변.
It was found in a study on the magnetocaloric effect of Gd_5Si_(2-x) Ge_2Zn_x and Gd_5Si_(2-z) Ge_(2-z)Zn_(2x) serial alloys that a trace amount of change of Zn element has a great impact on magnetocaloric properties of GdSiGeZn.The maximum isothermal magnetic entropy change(△S_M)reaches 20.70 J/(kg·K)at 284 K and 25.30 J/(kg·K)at 280 K for x=0.001 and 2z=0.001.These magnetocaloric properties are better than that of undoped GD_5Si_2Ge_2 compound.Experimental results show GD_5Si_2Ge_2 compound which are alloyed by a trace amount of Zn element has better magnetocaloric properties than that of GD_5Si_2Ge_2 compound alloyed by other elements reported in the literature.The over-all magnetocaloric properties are the best among other Gd_5Si_2Ge_2 alloys upon 5 T applied field.
