141 resultados para Ceramics.


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Spectroscopic properties of (Y0.9-xLa0.1Ybx)(2)O-3 transparent ceramic were studied. Two main absorption peaks of the specimen are centered at 940 and 970 nm, which are suitable for InGaAs laser diode pumping. The main emission peaks were located at 1032 and 1075 nm with larger emission cross-section and longer fluorescence lifetime than those of Yb:Y2O3. These properties of (Y0.9-xLa0.1Ybx)(2)O-3 transparent ceramic are favorable to achieve high efficiency and high power laser output. (c) 2007 Elsevier B.V. All rights reserved.

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采用传统陶瓷烧结工艺,在无压还原气氛下低温制备出透明性良好的掺Yb^3+氧化镧钇透明激光陶瓷,测试了其在室温下的吸收光谱、发射光谱和荧光寿命.结果表明,掺Yb^3+氧化镧钇透明激光陶瓷的吸收系数随着Yb^3+掺杂浓度的增加而增大,最强吸收峰974 nm处的吸收截面为0.90~1.12×10^-20 cm^2;主发射峰1 032 nm和1 075 nm处的发射截面分别为1.05×10^-20 cm^2和0.87×10^-20 cm^2; Yb^3+掺杂浓度为5at.%时荧光寿命为1.38 ms,并随Yb^3

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采用传统无压烧结工艺制备Nd^3 +掺杂的氧化镧钇透明激光陶瓷,测试了其吸收和荧光光谱.采用Judd-Ofelt理论对Nd^3 +掺杂量为1 .5at %的样品光谱参量进行了计算.根据吸收光谱,拟合得到三个强度参量分别为:Ω2=6 .57×10^-20cm^2,Ω4=2 .04×10^-20cm^2,Ω6=4 .38×10^-20cm^2.根据这三个参量计算了样品的辐射寿命,跃迁几率,荧光分支比,量子效率和品质因子,并对结果作了分析.

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用碳酸盐共沉淀法制备一种新的掺钕氧化镧钇(Nd:Y1.84La0.16O3)纳米粉体,得到颗粒细小、均匀、分散性好、粒径为50~60nm的Nd:Y1.84La0.16O3纳米粉体.分别采用Nd:Y1.84La0.16O3纳米粉料和商业粉料,用传统陶瓷无压烧结工艺制备Nd:Y1.84La0.16O3透明陶瓷.Nd:Y1.8vLa0.16O3纳米粉制备的陶瓷样品的组分均匀、几乎不存在第二相,具有较高的透过率.商业粉制备的陶瓷样品因混料不均匀而在晶界处存在部分第二相,降低了陶瓷的透过率.此外,还运用体视学法预测

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制备了高质量的Yb:YAG透明陶瓷.Yb:YAG透明陶瓷的晶粒尺寸为10μm左右且分布均匀,晶界处和晶粒中没有杂质、气孔的存在.Yb:YAG样品中所有元素分布均匀,不同的晶粒间,晶粒和晶界间成分是一致的,没有出现成分的偏析.4mm厚样品的透过率为80%.LD泵浦获得了波长为1030nm,最大功率为268mW的连续激光输出.

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采用传统无压烧结工艺制备了Er^3+/Yb^3+共掺的氧化镧钇透明陶瓷并对其光谱性能进行了研究.样品具有较大的吸收和发射截面.La2O3的添加使样品的荧光寿命(τs)与玻璃接近,当Yb^3+和Er^3+的掺杂量分别为5at%和0.5at%时,测得τs=9.65ms.这种荧光寿命长、发射截面大和线宽窄的特性有利于微型、可集成化和大功率激光输出的实现.

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研究了La2O3对Yb:Y2O3透明陶瓷光谱性能的影响,添加适量La2O3以后,Yb:Y2O3透明陶瓷的吸收峰和发射峰的位置不变,但由于La^3+的离子半径大于Y^3+的离子半径,在Y2O3中引入La^3+离子后,导致Y2O3晶格常数变大,晶场强度变弱,同时降低了Y2O3晶体的有序度,致使发射峰强度有所下降,发射截面变小.过量的№La2O3(x=0.16)造成yb^3+激活离子发射强度明显下降;其荧光寿命在添加La2O3后总体增大45%-60%.

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Luminescence characteristics of Yb3+, La3+ codoped yttrium oxide nanopowders were investigated. The grain size and the crystallinity of (Yb0.05Y0.90La0.05)(2)O-3 nanopowders increase with the increase of calcination temperature. The average grain size of the nanopowders calcined at 1100 degrees C is 66 nm and its cooperative up-conversion luminescence centered at 498 nm was detected due to nanometer size effect and perfect crystallinity. However, the cooperative up-conversion luminescence of (Yb0.05Y0.90La0.05)(2)O-3 transparent ceramics was not detected. (c) 2008 Elsevier B.V. All rights reserved.

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La2Zr2O7是一种近年来才提出的新型热障涂层材料,该材料熔点高,在熔点以下不发生相变,热导率低,抗烧结及没有氧传输发生,这些特点使得它作为一种高温下应用的热障涂层材料越来越引起人们的重视。但是,由于该材料的热膨胀系数和断裂韧性比较低,它的实际应用受到了限制。 在本论文中,使用高压烧结的方法获得了致密化的纳米La2Zr2O7块体材料,并对其断裂韧性和热膨胀系数进行了研究。得到的La2Zr2O7纳米材料的断裂韧性和热膨胀系数分别为1.98MPam1/2和9.6×10-6K-1 (200-1000℃),这些数值明显高于非纳米的La2Zr2O7陶瓷(断裂韧性和热膨胀系数分别为1.40 MPam1/2 和 9.1×10-6 K-1,该结果表明纳米化是一种提高材料断裂韧性和热膨胀系数的有效方法。在La2Zr2O7纳米粉末中加入8YSZ纳米颗粒,高压烧结后使其颗粒充分生长,在得到的复相化合物中观察到形成了类似棒状晶体的自增韧相,使得复合材料的断裂韧性(1.88 MPam1/2)比La2Zr2O7有所提高,甚至超过了同样条件下制备的8YSZ样品的断裂韧性。 La2Zr2O7的断裂韧性也可以通过在基体中添加BaTiO3铁电材料得到明显的提高。当添加BaTiO3的体积含量达到10vol%时,4.5GPa,1450℃高压烧结10min得到的复合材料断裂韧性达1.98 MPam1/2,明显高于同条件下烧结的La2Zr2O7 (1.60MPam1/2)。应力诱导下BaTiO3的电畴转向是主要的增韧原因。随着BaTiO3颗粒添加的体积含量增加,复相化合物的热膨胀系数也明显提高。当掺杂20vol%BaTiO3时,得到的复合材料平均热膨胀系数达到10.2×10-6K-1 (150~1200℃)。 我们通过在4.5GPa, 1650℃高压烧结5min的方法还获得了掺杂YAG纳米颗粒的La2Zr2O7纳米复相陶瓷。在室温下测量了材料的维氏硬度,并通过压痕裂纹长度计算出了材料的断裂韧性。随着YAG纳米颗粒体积含量的增加,纳米复相陶瓷的断裂韧性和维氏硬度都依次增加,当添加20vol%的YAG纳米颗粒时达到最大,分别为1.93 MPam1/2和11.45GPa。断裂韧性增加的机理可归结为以下三点:一是YAG纳米颗粒的添加提高了La2Zr2O7基体的晶界强度,二是基体晶粒尺寸变化的影响,三是YAG纳米颗粒对裂纹的偏转和钉扎作用。添加微米YAG颗粒的复相化合物因为和纳米复相陶瓷具有不同的增韧机制,因此断裂韧性的变化趋势也不相同,在掺入10vol%的YAG微米颗粒时,复合材料的断裂韧性最大,而后降低,当掺入YAG微米粒子的体积含量达到20vol%时,断裂韧性甚至低于La2Zr2O7。 从20世纪90年代开始,电纺作为一种合成纤维的办法越来越吸引人们的注意。其合成的纤维长度长,直径均匀,并且组成范围很广。最初,电纺只是被用来合成一些有机聚合物的纤维,最近,很多研究组开始致力于使用电纺的方法合成复合纤维或者陶瓷纤维。 在本论文中,我们使用电纺的方法获得了La2Zr2O7纳米纤维和SiC单晶纳米线。1000℃煅烧得到的La2Zr2O7纳米纤维具有烧绿石结构,直径在200~500nm之间。同样的温度煅烧时得到的La2Zr2O7纳米纤维的比表面积要明显高于粉末样品的,表明纤维的抗烧结性能比粉末的高。得到的SiC纳米线直径在50~100nm之间,表面有一约5nm厚的无定形的SiO2薄层。 使用电纺的方法,恰当的控制煅烧条件,我们获得了La2Ce2O7, La2(Zr0.745Ce0.386)2O7.524和8YSZ中空纤维。这种中空结构减小了粒子之间的接触面积,提高了材料的抗烧结性能。在扫描电镜分析的基础上,我们总结了这些中空纤维的形成过程。

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PZT陶瓷粉体的制备和研究。用溶胶一凝胶法制备了错钦酸铅Pb(Zr_(0.52)Ti_(0.48))O_3(PZT),研究了溶剂乙二醇单甲醚和水的比例对PZT的晶化温度和晶粒尺寸的影响,结果表明,随溶剂比例的增大,PZT粉体的晶化温度升高晶粒尺寸增大,当V(C_3H_9O_2)/V(H_2O)=4.47时,不仅缩短了溶胶-凝胶过程的时间,且得到的PZT粉体晶化温度低(443℃),晶粒的粒径分布集中(60-70nm)。PZT掺杂压电陶瓷的制备和研究。用同一主族元素对PZT进行掺杂改性实验,制备了Ca-PZT,Sr-PZT,Ba-PZT三个系列的压电陶瓷体系,其中每个体系中又包含1%、3%、5%、7%、9%(10%,11%)不同的掺杂量。经过压片,蒸镀电极,极化处理后测定其由,常数,结果表明,Ba离子的半径是最适合掺杂的离子半径。PZT和PbTIO。(PT)稳定溶胶的制备。在溶胶形成过程中,通过调整溶剂乙二醇单甲醚和水的比例,并加入适当量的乙酞丙酮作稳定剂,在有水体系下制备稳定的PZT和PT溶胶前驱体。该方法省略了制备中的蒸馏过程,简化了PZT和PT稳定溶胶的制备工艺。PZT铁电薄膜的制备。用自制的溶胶进行旋涂制膜,制备了膜层厚度不同的PZT和PT-PZT薄膜,在不同的锻烧温度,锻烧时间下处理为晶态膜,并对晶态膜进行表征,证明获得了钙钦矿结构的PZT晶态膜。

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Ilmenite-type (Zn1-xCdx)TiO3 (0 <= x <= 0.15 and 0.8 <= x <= 1.0) was synthesized by a modified sol-gel route including the Pechini process via two-step heat treatments. The thermal stability of (Zn1-xCdx)TiO3 depended on the amount of cadmium content. The as-synthesized (Zn1-xCdx)TiO3 (0 <= x <= 0.15 and 0.8 <= x <= 1.0) showed higher thermal stability than that of ZnTiO3. The variation of the dielectric constant of all synthesized (Zn1-xCdx)TiO3 samples for all measurement frequencies showed a similar tendency.

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Oxide ceramics with high sintering-resistance above 1473 K have very important applications in thermal barrier coatings (TBCs), catalytic combustion and high-temperature structural materials. Lanthanum zirconate (La2Zr2O7, LZ) is an attractive TBC material which has higher sintering-resistance than yttria stabilized zirconia (YSZ), and this property could be further improved by the proper addition of ceria.

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La2Zr2O7 (LZ) is a promising thermal barrier coating material for the high-temperature applications, which could be significantly toughened by the BaTiO3 piezoelectric phase incorporated into the matrix. The composites of xBaTiO(3)/(l-x)LZ (x=5, 10, 15, 20 vol%, LZ-x-BaTiO3) were densified by means of high-pressure sintering (HPS) under a pressure of 4.5 GPa at 1450 degrees C for 10 min, by which a high relative density above 93% could be obtained.

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Lanthanum zirconate (La2Zr2O7, LZ) powders with the addition of various Y2O3 contents for potential thermal barrier coatings (TBCs) application were synthesized by solid-state reaction. The structure evolution, sintering-resistance and thermophysical properties of the synthesized powders and sintered ceramics were systematically studied. X-ray diffraction (XRD) results indicate that LZ containing 3-12 wt.% Y2O3 mainly keeps a pyrochlore-type structure, and two new phases of LaYO3 and Y0.18Zr0.82O1.91 are also detected. Raman spectra confirm that the higher the Y2O3 content, the easier is the formation of LaYO3.

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Thermal barrier coatings (TBCs) of La2Zr2O7 (LZ) with the addition of 3 wt.% Y2O3 (LZ3Y) were deposited by electron beam-physical vapor deposition (EB-PVD). The phase stabilities, thermophysical and mechanical properties, and chemical compositions of these ceramics and coatings were studied in detail. The phase stability and thermal expansion behavior of LZ3Y bulk material are identical to those of LZ bulk material, but the mechanical properties of the former are superior to those of the latter. Elemental analysis and X-ray diffraction indicate that compositional deviation of LZ coating can be optimized after doping by 3 wt.% Y2O3, Y2O3 acts as a dopant as well as a process regulator. The optimal composition of LZ3Y coating could be effectively achieved by the addition of excess Y2O3 into the ingot and by properly controlling the current of electron beam (i.e. similar to 650 mA).