SDC中间层的阳极支撑型LSGM电解质膜SOFC的制备及性能研究

采用离心沉降法及高温共烧结工艺在多孔NiO-Sm_0.2Ce_0.8O_1.9(SDC)阳极上成功地制备了SDC/LSGM (La_0.9Sr_0.1Ga_0.8Mg_0.2O_3-δ)/SDC电解质薄膜. 经共烧结制备了11μmSDC/15μmLSGM/13μmSDC三层复合电解质薄膜. 电池在800℃最大输出功率密度为0.92W/cm², 但电池的开路电压0.89V低于理论电动势. 电池微结构和元素分析表明, 高温共烧结时Ni扩散到LSGM电解质薄膜中引起电子电导, 导致电池开路电压偏低. 阻抗谱测试表明, 引入SDC电解质作为隔离层后, 欧姆极化过程和电极极化过程共同影响电池的性能     

Magnetic Ordering and Exchange Interaction of Laves Compounds Sm0.9Pr0.1（Fe1—xCox）2

Structure,magnetic properties and magnetostriction of Sm0.9Pr0.1(Fe1-xCox)2 compounds have been investi-gated by means of X-ray diffraction,a.c. initial susceptibility, extracting sample magnetometer,Mossbauer spec-troscopy and standard strain gauge techniques.The lattice parameter a of the MgCu2-type Laves compounds Sm0.9Pr0.1(Fe1-xCox)2 decreases nonlinearly with increasing Co concentration,deviating from the Vegardˊs law.Curie temperature Tc increases initially from 668 K for x=0 to 694 K for x=0.2 and then decreases to 200 K for x=1.0.The saturation magnetization Ms at temperatures 1.5K, 77K and 300K have the same variation tendency as the composition dependence of Curie temperature,in consistence with rigid-band model.The easy magnetization direction(EMD) od Sm0.9Pr0.1(Fe1-xCox)2 lies along [111] direction in the range x≤0.6,and changes to [110] for x=0.8 ,while Sm0.9Pr0.1(Fe1-xCox)2 stays in the paramagnetic state at room temperature.The composition dependence of the average hyperfine field,Hhf,demonstrates a similar variation tendency as that of the saturation magnetiza-tion Ms and Curie temperature Tc .The spontaneous magnetostricton λ111 increases with increasing Co content.The saturation magnetostriction λs decreases monotonically with increasing x,which is caused by the increase of magnetostriction constant λ100 with opposite sign to that of λ111.A two-sublattice model has been proposed to understand the intermediate region between the [111]and [110] spin configurations ,which can also be used to explain the temperature dependence of magnetization.     

钐掺杂的W型钐铁氧体Ba1-xSmx（MnZn）0.4Al0.2CoFe16O27制备及电磁性能研究

采用柠檬酸溶胶-凝胶法制备钐掺杂的W型铁氧体Ba1-xSmx(MnZn)0.4Al0.2CoFe16O27(x=0.0,0.1,0.2,0.3),通过X射线衍射(XRD)、电镜扫描(SEM)及矢量网络分析仪考察了钐掺杂量对铁氧体物相组成及其电磁性能的影响。结果表明,当x≤0.1时,得到单一晶型的W型钐铁氧体;x≥0.2时,出现了SmFeO3及Mn2AlO4晶相。另外,在1～18GHz频率范围内测定了样品的电磁参数,发现当Sm3+掺杂量x=0.1时,钐铁氧体的电磁性能达到最优,最大吸收率为-14.4dB,在雷达波频段内吸收率小于-7.5dB。     

掺钐聚合物光纤的光辐射跃迁特性

制备了掺钐螯合物的阶跃型聚合物光纤,研究了螯合物Sm(DBM)3(TOPO)2掺杂的聚甲基丙烯酸甲酯(PMMA)的吸收光谱、激励光谱和发射光谱.根据Judd-Ofelt(J-O)理论,从吸收光谱获得了光学跃迁的强度参数Ω2、Ω4、Ω6分别为18.53×10-20 cm2、2.87×10-20 cm2、3.71×10-20cm2.用光学强度参数计算了激发态4G5/2的辐射跃迁几率(536.19s-1)和辐射寿命(1865μs);同时,计算了4G5/2→6HJ'跃迁的受激发射截面和4G5/2→6FJ'、6HJ'的荧光分支比.分析表明,Sm(DBM)3(TOPO)2掺杂的PMMA可望用于聚合物光纤激光器和放大器.     

Sm对Mg-l0Y合金组织的细化作用

Mg24Y5相的细化是进一步提高Mg-l0Y合金力学性能的关键.研究了稀土元素sm对Mg-l0Y合金中的Mg24Y5相及其基体组织的细化作用,结果表明:sm的加人,改善了Mg24Y5相的形貌,促进了细小弥散分布的Mg24Y5颗粒相的形成;同时,Sm的加人,通过固溶作用,进一步细化了基体组织;显微组织的改善导致了合金高温...     

Ca0.3(Li1/2Sm1/2)0.7TiO3微波介质陶瓷的低温烧结研究

采用传统陶瓷制备工艺, 制备了掺杂Na₂O-CaO-B₂O₃(NCB)氧化物的Ca_0.3(Li_1/2Sm_1/2)_0.7TiO₃(CLST)陶瓷, 研究了NCB掺杂量与晶相组成、显微结构、烧结性能及微波介电性能的关系. 研究结果表明: 复合氧化物NCB掺杂量在1wt%～15wt%范围内没有杂相生成, 晶相仍呈斜方钙钛矿结构. 随着NCB添加量的增加, 陶瓷致密化温度和饱和体积密度降低, 介电常数ε_r、无载品质因数与谐振频率乘积Qf值也呈下降趋势, 频率温度系数τ_f向正方向增大. NCB氧化物掺杂能有效地将CLST陶瓷的烧结温度由1300℃降低至900℃. 添加12.5wt% NCB的CLST陶瓷在低温900℃烧结5h仍具有良好的微波介电性能: ε_r=73.7, Qf=1583GHz, τ_f=140.1×10-6/℃, 满足高介多层微波器件的设计要求.     

Synthesis and Characterization of Sm_xGd_yCe_(1-x-y)O_(2-δ) Nanopowders

SmxGdyCe1-x-yO2-δ (x+y=0.2 and x=0, 0.04, 0.08, 0.12, 0.16, 0.2) nanopowders were prepared by a copre-cipitation method. The zeta potential and sedimentation volume of Ce(OH)4 aqueous dispersions at different pH values were measured. The isoelectric point (IEP) of Ce(OH)4 suspensions is 7.0. The maximum potential value of -18.5 mV and maximum sedimentation volume of 19 ml are reached at pH=10. The evolution behaviors of the xSm(OH)3·yGd(OH)3·(1-x-y)Ce(OH)4 dried powders in the heating process was characterized by DTA/TG and XRO. The powders decompose to ceria based solid solution at a temperature below 300℃ and forms cubic fluorite structure ceria at about 650℃. The properties of SmxGdyCe1-x-yO2-δ solid solutions were characterized by XRD, TEM and BET. The lattice parameter of doped Ce02 increases linearly with increasing Sm3+ substitution (or decreasing Gd3+ substitution). The particle size of the doped ceria powders is from 5 nm to 10 nm.     

Luminescence Properties of Sm^3＋ doped Bi2ZnB2O7

The phosphors of （Bi1- x Smx ） 2ZnB2O7 （ x = 0. 01, 0. 03, 0. 05, 0. 07, and 0. 09） were synthesized by conventional solid state reaction. The purity of all samples was checked by X-ray powder diffraction （XRD）. XRD analysis shows that all these compounds are of a single phase of Bi2ZnB2O7, indicating that the Bi^3＋ in Bi2ZnB2O7 can be partly replaced by the Sm^3＋ without the change of crystal structure. The excitation and emission spectra at room temperature show the typical 4f-4f transitions of Sm^3＋ . The dominant excitation line is around 404 nm due to ^6H5/2→^4K11/2 and the emission spectrum consists of a series of lines at 563, 599, 646, and 704 nm due to ^4G5/2→^6H5/2, ^6H7/2, ^6H9/2, and ^6H11/2, respectively. The optimal concentration of Sm^3＋ in Bi2ZnB2O7 is about 3mol% （relative to lmol Bi^3＋ ） and the critical distance Rc was calculated as 2.1 nm. The temperature dependence of the emission intensity of Bi1.94Sm0.06ZnB2O7 was examined in the temperature range between 100 and 450 K. The quenching temperature where the intensity has dropped to half of the initial intensity is 280 K. The lifetime for Sm^3＋ in Bi1.94Sm0.06ZnB2O7 is fitted as a value of 0.29 and 1.03 ms.     

Optimization of microstructures and magnetic properties of Sm(CobalFe0.227Cu0.07Zr0.023)7.6 magnets by sintering treatment

Magnetic properties and microstructures of Sm(Co_(bal)Fe_(0.227)Cu_(0.07)Zr_(0.023_)_(7.6) sintered magnets were optimized by sintering treatment. Results show that the knee-point magnetic field, Hknee, is twofold up and the intrinsic coercivity Hcjincreases by 40%, ranging from 21.64 to 30.39 kOe at the cost of a little decrease of Brfrom 10.84 to 10.31 kGs with sintering temperature decreasing from 1488 to 1473 K. And the average domain width is narrower and more uniform for the specimen sintered at 1473 K than that of the specimen sintered at 1488 K. It is impressive that the density of lamellar phase increases from ~0.050 to ~0.058 nm~(-1) with the sintering temperature decreasing from 1488 to 1473 K. Moreover, the average cellular size is about ~84 nm for the magnets sintered at 1473 K, which is 80% of that of the magnets sintered at 1488 K(~97 nm). And the cell boundary width of the magnets sintered at 1473 K(~7 nm) is only half average width of the magnets sintered at 1488 K(~14 nm). It is found that the Cu content in the cell boundaries is much higher(~17 at%) in the magnets sintered at 1473 K compared to that of the magnets sintered at 1488 K(~10 at%). It can be concluded that smaller cells and narrower cell boundaries together with higher gradient of Cu content are key points for obtaining the optimum Hkneeand Hcj.     

Application of high-temperature permanent magnets Sm（Co,Fe, Cu,Zr）z in PPM focusing system

Rare earth permanent magnets Sm（Co, Fe, Cu, Zr）z with outstanding performance and high-temperature thermal stability were fabricated. Optimized by Fe content and process, Sm（Co0.72Fe0.15Cu0.1Zr0.03）7.5 magnet with B1〉0.75 T and Hci〉1300 kA/m at 300 ℃ can be obtained. According to the performance data of Sm（Co0.72Fe0.15Cu0.1Zr0.03）7.5, the magnetic field along central axis Bz in periodic permanent magnet （PPM） focusing system was simulated using electromagnetic field analysis software Maxwell 2D/3D. The Bz exhibited typical cosine curve along central axis, and the peak value of Bz was high enough to meet the demand of PPM focusing system at room temperature even at 200±20 ℃. Additionally, a kind of simple cooling structure for PPM focusing system was designed by setting cooling pipe between polepieces. Simulated results showed that smooth cosine curve of Bz was successfully achieved with good control of the thickness of cooling pipe.