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Processing Techniques Developed to Fabricate Lanthanum Titanate Piezoceramic Material for High-Temperature Smart Structures.

机译：开发用于制造高温智能结构的钛酸镧压电陶瓷材料的加工技术。

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Piezoelectric ceramic materials are potential candidates for use as actuators and sensors in intelligent gas turbine engines. For piezoceramics to be applied in gas turbine engines, they will have to be able to function in temperatures ranging from 1000 to 2500 F. However, the maximum use temperature for state-of-the-art piezoceramic materials is on the order of 300 to 400 F. Research activities have been initiated to develop high-temperature piezoceramic materials for gas turbine engine applications. Lanthanum titanate has been shown to have high-temperature piezoelectric properties with Curie temperatures of T(sub c) = 1500 C and use temperatures greater than 1000 C. However, the fabrication of lanthanum titanate poses serious challenges because of the very high sintering temperatures required for densification. Two different techniques have been developed at the NASA Glenn Research Center to fabricate dense lanthanum titanate piezoceramic material. In one approach, lower sintering temperatures were achieved by adding yttrium oxide to commercially available lanthanum titanate powder. Addition of only 0.1 mol% yttrium oxide lowered the sintering temperature by as much as 300 C, to just 1100 C, and dense lanthanum titanate was produced by pressure-assisted sintering. The second approach utilized the same commercially available powders but used an innovative sintering approach called differential sintering, which did not require any additive.

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作者
Goldsby, Jon C.; Farmer, Serene C.; Sayir, Ali;
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年度 2004
页码 1-3
总页数 3
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Piezoelectric ceramics; Smart materials; Lanthanum; Titanium; Engine parts; Smart structures; Hysteresis; Sintering; Powder Particles;

机译：压电陶瓷;智能材料;镧;钛;发动机零件;智能结构;磁滞;烧结;粉末颗粒;

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专利

1. PIEZOCERAMIC MATERIALS OF THE LZT (LEAD ZIRCONATE-TITANATE) SYSTEM PREPARED BY SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS [J] . I. L. Trubnikov, S. N. Svirskaya Refractories and Industrial Ceramics . 2002,第3a4期

机译：自蔓延高温合成制备LZT（铅钛酸钛酸盐）体系的压电陶瓷材料
2. Characterization of smart-materials based on lead lanthanum zirconate titanate [J] . Optoelectronics and Advanced Materials-Rapid Communications . 2010,第2010期

机译：基于钛酸锆钛酸铅铅的智能材料的表征
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机译：力学化学制备钙钛矿型纳米镧修饰钛酸铅粉的室温制备
4. Electrical Properties of Barium Titanate Doped Lanthanum(Ba_(1-x)LaxTiO3)Fabricated Using Co-precipitation Method [C] . M D Noviastuti, Y Iriani, K Kusumandari International Conference on Advanced Materials for Better Future . 2019

机译：使用共沉淀法制造钛酸钡掺稀镧（Ba_（1-x）Laxtio3）的电学性能
5. High-Temperature Transport in Lanthanum Telluride and Other Modern Thermoelectric Materials. [D] . May, Andrew F. 2010

机译：碲化镧和其他现代热电材料中的高温运输。
6. Modified Powder-in-Tube Technique Based on the Consolidation Processing of Powder Materials for Fabricating Specialty Optical Fibers [O] . Jean-Louis Auguste, Georges Humbert, Stéphanie Leparmentier, 2014

机译：基于粉末材料固结处理的改进的管内粉末制造专用光纤的技术
7. Modified Powder-in-Tube Technique Based on the Consolidation Processing of Powder Materials for Fabricating Specialty Optical Fibers [O] . Auguste, Jean-Louis, Humbert, Georges, Leparmentier, Stéphanie, 2014

机译：基于粉末材料固结制备特种光纤的改进型粉末管内技术

Processing Techniques Developed to Fabricate Lanthanum Titanate Piezoceramic Material for High-Temperature Smart Structures.

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