Bi_(0.5)K_(0.5)TiO_3掺杂对0.945K_(0.5)Na_(0.5)NbO_3-0.045LiSbO_3无铅压电陶瓷结构性能的影响

采用传统固相合成法合成(1-x)(0.945K0.5Na0.5NbO3-0.045LiSbO3)-x(Bi0.5K0.5TiO3)(简记为(KNN-LS)(1-x)-BKTx))无铅压电陶瓷,研究不同BKT掺入量(x=0.000,0.005,0.010,0.015,0.020,0.025,0.030)对该体系陶瓷的微观结构和压电介电性能。结果表明:x≤0.025时,均可形成单一钙钛矿结构;与KNN-LS相比,体积密度(ρ)、机械耦合系数kp、kt显著提高;d33、介电损耗tanδ、机械品质因数Qm和次级相变温度降低;当x=0.020时,样品的整体性能达到最佳值:ρ=4.239g/cm3,d33=94pC/N,kp=30.9%,kt=20.7%,tanδ=0.024,相对介电常数εT33/ε0=2468,Qm=53.95,次级相变温度降至室温以下,温度稳定性好。     

(1-x)KNN-xNKBT无铅压电陶瓷的结构及其电性能研究

采用传统固相法制备了(1-x)K0.5Na0.5NbO3-x(Na0.8K0.2)0.5Bi0.5TiO3(x=0-5%)无铅压电陶瓷,研究了(Na0.8K0.2)0.5Bi0.5TiO3的不同引入量对其物相结构、显微形貌、介电性能以及压电性能的影响。结果表明:所有样品都具有钙钛矿结构;随着x的增加,室温下样品从正交相逐渐向四方相过渡并且居里温度向低温方向移动,样品的压电常数d33与机电耦合系数kp均先升高后降低。该体系多晶型转变PPT位于2%≤x≤3%,当x=3%时,样品的压电性能达到最佳,其中:d33=189pC/N,kp=41%,Qm=96,tanδ=0.028。     

BiFeO_3掺杂改性铌酸钾钠无铅压电陶瓷

采用传统固相法制备了(1–x)(K0.5Na0.5)NbO3-xBiFeO3[(1–x)KNN-xBF]无铅压电陶瓷,研究了不同BF含量(x=0,0.175%,0.5%,1%,2%,3%,摩尔分数)样品的物相组成、显微结构及电性能。结果表明:当x≤3%时,得到了纯钙钛矿结构的(1–x)KNN-xBF陶瓷。与纯KNN相比,在0x≤1%时,(1–x)KNN-xBF样品的密度(ρ)、压电常数(d33)、平面机电耦合系数(kp)和机械品质因子(Qm)都显著增大;当1%x≤3%时,ρ,d33,kp和Qm又迅速降低;在x=1%时达到最大值。x=1%时,(1-x)KNN–xBF材料的综合性能最好,其中ρ=4.42g/cm3,d33=172pC/N,kp=0.45,介电损耗tanδ=0.021,相对介电常数εr=759和Qm=138;同时表现出较好的抗老化性能。     

(K_(0.5)Na_(0.5))NbO_3-CaZrO_3基无铅压电陶瓷的相结构和压电性能研究

采用传统陶瓷工艺制备了(1-x)(K0.5Na0.5)NbO3-xCaZrO3(简称KNN-CZ)无铅压电陶瓷。分析了陶瓷样品的相结构组成。测试结果表明:所有陶瓷样品均为钙钛矿相,未发现其它晶相。随着CaZrO3含量的增加,(1-x)KNNxCZ陶瓷的相结构由正交相转变为四方相,最后变为立方相。研究了不同CaZrO3含量对压电性能的影响,实验表明:当CaZrO3含量为0.05mol时,压电常数d33和径向机电耦合系数kp分别达到了最大值196pC/N和0.35。(1-x)KNNxCZ(x=0.05)陶瓷的压电性能展现了良好的温度稳定性和经时稳定性,这些结果表明(1-x)KNN-xCZ(x=0.05)陶瓷是一种优良的无铅压电备选材料。     

Y_2O_3,Fe_2O_3掺杂(Na_(0.5)Bi_(0.5))TiO_3无铅压电陶瓷的研究

采用固相法制备了(Na0.5Bi0.5)TiO3+xmol%Y2O3+xmol%Fe2O3(0≤x≤1.25)(简称NBTYF)无铅压电陶瓷。XRD衍射结果表明,所有陶瓷样品均为单一的钙钛矿结构。SEM表明,掺杂后陶瓷的晶粒尺寸增大。介电温谱表明该体系陶瓷具有弛豫特性,随掺杂量的增加,退极化温度Td向低温方向移动,而居里温度Tc向高温方向移动。陶瓷的密度和压电常数d33和随x的增加先增大后减小,而机械品质因子Qm一直下降。当x=1.00时,该体系陶瓷具有最佳压电性能,d33=106pC/N,Qm=93,kp=16.08%,εr=594,tanδ=5.33%,ρ=5.699g/cm3。     

Sr和Mn复合掺杂(Na0.8K0.2)0.5Bi0.5TiO3无铅压电陶瓷

用固相法制备了(Na0.8K0.2)0.5Bi0.5TiO3+xmol%SrCO3+xmol%MnCO3(0≤x≤1.25%)(简称NKBTSM)无铅压电陶瓷,用XRD、SEM、Agilent 4294A精密阻抗仪等对该体系陶瓷的结构与电性能进行表征。结果表明:所制备的NKBTSM陶瓷样品均为单一的钙钛矿结构。Sr和Mn的复合掺杂促进了晶粒的长大,并提高了致密度。与纯NKBT陶瓷相比,掺杂Sr和Mn能提高陶瓷的压电常数d33、机电耦合系数kp和机械品质因子Qm,降低陶瓷的介质损耗tanδ。该系陶瓷具有介电弛豫特性,弥散因子随x的增加先增大后减小。综合考虑:x=1.00%陶瓷的电学性能最佳:d33=152pC/N,Qm=195,kp=28.66%,εr=701,tanδ=2.84%。     

K_(0.5)Na_(0.5)NbO_3-La_2O_3无铅压电陶瓷性能的研究

采用传统周相反应法制备了K0.5Na0.5NbO3-xmol%La2O3(简称KNN-xLa)系列无铅压电陶瓷,研究了不同La2O3含量(x=0.0,0.05,0.15,0.25,0.35,0.5,1.0)样品的物相组成、显微结构、压电及介电性能.实验结果表明:La2O3的加入并没有改变陶瓷的相结构,体系仍为单一正交相钙钛矿结构.随着掺杂量x的增大样品的压电系数(d33)、机械品质因子(Qm)、平面机电耦合系数(kp)和样品密度(P)都呈现先增大后减少的变化趋势,而介质损耗(tan δ)呈现先变小后增大的变化趋势,烧成温度则随着x的增大而升高.当x=0.15时,材料的综合性能达到最佳,其中P=4.52 g/cm3,d33=120pC/N,Qm=130,kp=0.41,tan δ=0.021.此外,随着x的增大,居里温度Tc则呈现出先升高后降低的趋势,而正交相向四方相的转变温度To-t与Tc变化相反,且当x=0.15时,To-t=189℃,Tc=404℃.     

(1-x)Li0.05(K0.5Na0.5)0.95NbO3-x(Bi0.5Na0.5)TiO3无铅压电陶瓷的结构与电性能研究

采用固相反应法制备了(1-x)Li0.05(K0.5Na0.5)0.95NbO3-x(Bi0.5Na0.5)TiO3(LKNN-BNT)无铅压电陶瓷,研究了BNT的添加量x(0,0.005,0.01,0.02)对LKNN-BNT陶瓷的结构与电性能影响。X射线衍射(XRD)分析结果表明当x≤0.005时,陶瓷为正交钙钛矿结构,而当x≥0.01时,陶瓷则转变为四方钙钛矿结构,说明该陶瓷的多型相转变(PPT)区域为0.005相似文献   

氧化铋掺杂对铌酸钾钠无铅压电陶瓷性能的影响

用传统固相反应法制备了结构致密的铌酸铋钾钠[(Na0.5K0.5)1-3xBixNbO3,0≤x≤0.05]无铅压电陶瓷,研究了掺杂氧化铋(Bi2O3)对铌酸钾钠(Na0.5K0.5)NbO3(NKN)晶体结构和压电性能的影响.结果表明:当Bi2O3含量x＜0.02时,能得到具有纯钙钛矿结构的(Na05K0.5)1.3xBixNbO3陶瓷.最佳烧结温度随Bi2O3含量的增加而升高,与纯铌酸钾钠陶瓷相比,样品密度显著提高.Bi2O3掺杂量对铌酸钾钠的压电性能有很大影响,其压电常数(d33),机电耦合系数(kp,kt)随Bi2O3含量的增加先升高而后降低,并在x=0.01时达到最大值,机械品质因数(Qm)有明显提高.实验表明:当x=0.01时,(Na0.5K0.5)1-3BixNbO3无铅压电陶瓷的密度达4.42g/cm3,表现出优异的压电性能:d33=154×10-6C/N,kp=45%,kt=46%,介电损耗tanδ=3.5%,相对介电常数ε=598,Qm=138.     

K0.5Na0.5NbO3-BaCu0.5W0.5O3无铅压电陶瓷的结构与性能

以传统固相法工艺制备(1-x)K0.5Na0.5NbO3-xBaCu0.5W0.5O3[(1-x)KNN-xBCW]无铅压电陶瓷,研究不同BCW掺量(x=0％,0.1％,0.25％,0.5％,1.0％,摩尔分数,下同)对KNN陶瓷的晶体结构和电性能的影响,结果表明:x＜0.5％时,KNN陶瓷的相结构没有改变,仍为正交相...     

Piezoelectric K0.5Na0.5NbO3 Ceramics Textured Using Needlelike K0.5Na0.5NbO3 Templates

Improved performance by texturing has become attractive in the field of lead‐free ferroelectrics, but the effect depends heavily on the degree of texture, type of preferred orientation, and whether the material is a rotator or extender ferroelectric. Here, we report on successful texturing of K_0.5Na_0.5NbO₃ (KNN) ceramics by alignment of needlelike KNN templates in a matrix of KNN powder using tape casting. Homotemplated grain growth of the needles was confirmed during sintering, resulting in a high degree of texture parallel to the tape casting direction (TCD) and the aligned needles. The texture significantly improved the piezoelectric response parallel to the tape cast direction, corresponding to the direction of the strongest <001>_pc orientation, while the response normal to the tape cast plane was lower than for a nontextured KNN. In situ X‐ray diffraction during electric field application revealed that non‐180° domain reorientation was enhanced by an order of magnitude in the TCD, compared to the direction normal to the tape cast plane and in the nontextured ceramic. The effect of texture in KNN is discussed with respect to possible rotator ferroelectric properties of KNN.     

四元复合氧化物La_(0.5)Sr_(0.5)Ni_(0.5)Cu_(0.5)O_3的抗硫性能

以SO2 为毒物 ,采用脉冲中毒方法 ,再以CO氧化反应为探针 ,对三元复合氧化物催化剂La0 .5Sr0 .5NiO3 与La0 .5Sr0 .5CuO3 以及四元复合氧化物催化剂La0 .5Sr0 .5Ni0 .5Cu0 .5O3 等三种催化剂样品的抗硫毒能力、失活曲线、中毒催化剂的再生性能以及毒物残留形态等进行了全面考察和对比分析。实验结果表明四元复合氧化物催化剂La0 .5Sr0 .5Ni0 .5Cu0 .5O3 在SO2 毒物含量是 1 2 2×10 -2 mmol时 ,特别是在高温 (≥ 30 0℃ )条件下 ,具有优异的抗硫性能     

Thermally-stable large strain in Bi(Mn0.5Ti0.5)O3 modified 0.8Bi0.5Na0.5TiO3-0.2Bi0.5K0.5TiO3 ceramics

(1-x)[0.8Bi_0.5Na_0.5TiO₃-0.2Bi_0.5K_0.5TiO₃]-xBi(Mn_0.5Ti_0.5)O₃ (x = 0–0.06, BNKMT100x) lead-free ferroelectric ceramics were prepared via solid state reaction method. Bi(Mn_0.5Ti_0.5)O₃ induces a structure transition from rhombohedral-tetragonal morphotropic phases to pseudo-cubic phase. Moreover, the wide range of compositions within x = 0.03–0.055 exhibit large strain of 0.31%–0.41% and electrostrictive coefficient of 0.027–0.041 m⁴/C². Especially, at x = 0.04, the large strain and electrostrictive coefficient are nearly temperature-independent in the range of 25–100 °C. The impedance analysis shows the large strain and electrostrictive coefficient originate from polar nanoregions response due to the addition of Bi(Mn_0.5Ti_0.5)O₃.     

Near-infrared emitting CdTe0.5Se0.5/Cd0.5Zn0.5S quantum dots: synthesis and bright luminescence

We present how CdTe_0.5Se_0.5 cores can be coated with Cd_0.5Zn_0.5S shells at relatively low temperature (around 200°C) via facile synthesis using organic ammine ligands. The cores were firstly fabricated via a less toxic procedure using CdO, trioctylphosphine (TOP), Se, Te, and trioctylamine. The cores with small sizes (3.2-3.5 nm) revealed green and yellow photoluminescence (PL) and spherical morphologies. Hydrophobic core/shell CdTe_0.5Se_0.5/Cd_0.5Zn_0.5S quantum dots (QDs) with tunable PL between green and near-infrared (a maximum PL peak wavelength of 735 nm) were then created through a facile shell coating procedure using trioctylphosphine selenium with cadmium and zinc acetate. The QDs exhibited high PL efficiencies up to 50% because of the formation of a protective Cd_0.5Zn_0.5S shell on the CdTe_0.5Se_0.5 core, even though the PL efficiency of the cores is low (≤1%). Namely, the slow growth process of the shell plays an important role for getting high PL efficiencies. The properties of the QDs are largely determined by the properties of CdTe_0.5Se_0.5 cores and shells preparation conditions such as reaction temperature and time. The core/shell QDs exhibited a small size diameter. For example, the average diameter of the QDs with a PL peak wavelength of 735 nm is 6.1 nm. Small size and tunable bright PL makes the QDs utilizable as bioprobes because the size of QD-based bioprobes is considered as the major limitation for their broad applications in biological imaging.     

Na0.5Bi0.5TiO3-K0.5Bi0.5TiO3系无铅压电陶瓷的极化工艺研究

主要研究了极化电场,极化时间和极化温度等工艺参数对Na0.5Bi0.5TiO3-K0.5Bi0.5TiO3系无铅压电陶瓷介电和压电性能的影响。结果表明:极化电场和极化温度对压电陶瓷的介电、压电性能影响较大,而极化时间则影响较小。适宜的极化电场是3～3.5kV/mm,极化温度70～80℃,极化时间为10～15min。     

CeO2掺杂钛酸铋钠钾陶瓷的制备工艺与介电性能

为了进一步探索合成工艺对钛酸铋钠系无铅材料的结构及介电特性的影响,本文以甘氨酸为燃料,利用固相-燃烧法制备了CeO2掺杂的Bi0.5Na0.5TiO3-Bi0.5K0.5TiO3 (BNKT)陶瓷.XRD表明,在固相合成工艺中引入燃烧法制备BNKT陶瓷,比传统固相法降低预烧温度150 ℃,掺杂的CeO2扩散进入了BNKT钙钛矿的晶格,且当掺杂量为0%~0.3%时,形成纯的钙钛矿相结构;SEM表明,CeO2掺杂使晶粒尺寸趋于平均,对晶粒生长有抑制作用;介电温谱表明,随着CeO2掺杂量增加,介电常数εr和退极化温度Td、相转变温度Tm降低,介电反常峰逐渐弱化,且室温至300 ℃,介电损耗tanδ始终在0.3%以下,并从微结构缺陷空位形成机制角度,结合铁电畴壁运动状态,分析讨论了对材料介电特性的作用规律.     

Raman spectroscopy of Na0.5Bi0.5TiO3

We have measured the Raman spectra of bismuth sodium titanate in its rhombohedral, tetragonal, and cubic phases, with special attention paid to the phase transitions at 584K and 837K (heating). Both transitions appear to be order-disorder and strongly first order, with large thermal hysteresis. The phonon spectra at temperature slightly below the tetragonal phase are remarkably similar to BaTiO₃ with A₁(To) modes at 130, 269, and 541 cm^-1 (compared with 170, 270, 520 cm^-1 in BaTiO₃) and an E(TO) at 52 cm^-1.     

Characterization of multiferroic PbFe0.5Nb0.5O3 and PbFe0.5Ta0.5O3 ceramics derived from citrate polymeric precursors

Ceramics of the perovskite multiferroics PbFe_0.5Nb_0.5O₃ (PFN) and PbFe_0.5Ta_0.5O₃ (PFT) were synthesized from new citrate polymeric precursors. X-ray tests pointed to trace amounts of the pyrochlore phase. SEM studies revealed the heterogeneous grain size distribution for PFN and the homogeneous one for PFT. Dielectric studies pointed to one diffuse T-C phase transition at 378 K for PFN and two diffuse M-T and T-C phase transitions, at 200 and 235 K, for PFT, respectively. X-ray photoelectron spectroscopy studies of PFN reveal that all ions exist in one valence state, however, with two chemical shifts for Pb²⁺. Two valence states for the majority of ions of PFT seem to be connected with a higher volume fraction of the amorphous grain-boundary phase. The electronic energy band gap for both compounds is approximately 2.8 eV. Two magnetic transitions, ie, from the paramagnetic to the antiferromagnetic phase and then to the spin-glass phase, were observed at 156 and 10 K for PFN, and at 145 and 15 K for PFT, respectively.     

Improved wear resistance and low thermal radiative conductivity of a middle-entropy tantalate Y0.5Gd0.5Ta0.5Nb0.5O4

Ferroelastic YTaO₄ is a promising material for thermal barrier coatings (TBCs), and its thermal and mechanical properties can be further optimized by various methods. In this study, a ferroelastic middle-entropy ceramic Y_0.5Gd_0.5Ta_0.5Nb_0.5O₄ was synthesized by solid-phase sintering, and its microstructures and thermophysical properties were key points. We determined the contributions of phonons and photons to total thermal conductivity, and a low thermal conductivity was obtained by inhibiting high-temperature thermal radiation. The thermal expansion coefficients were improved by introducing of Nb atom into the lattice of the prepared middle-entropy ceramic, which meets the requirements of TBCs. The improved wear resistance originated from relatively high Young's modulus and the hardness of Y_0.5Gd_0.5Ta_0.5Nb_0.5O₄, and it would contribute to the service performance of the corresponding coatings. This work motivates the engineering applications of ferroelastic RETaO₄ and RENbO₄ (RE is rare-earth element) as high-temperature TBCs.