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Processing and characteristics of transparent Gd3TaO7 polycrystalline ceramics |
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| Authors: | Ching‐Fong Chen Ron A Synowicki Michael J Brand Eric L Tegtmeier J D Montalvo Jacob Ivy Geoff L Brennecka Zach Seeley Nerine J Cherepy Steven A Payne |
| Affiliation: | 1. Los Alamos National Laboratory, Los Alamos, New Mexico;2. J.A. Woollam Co., Inc., Lincoln, Nebraska;3. Colorado School of Mines, Golden, Colorado;4. Lawrence Livermore National Laboratory, Livermore, California |
| Abstract: | Transparent polycrystalline Gd3TaO7 ceramics were successfully developed. A sol‐gel process was used to synthesize Gd3TaO7 powder with a uniform composition and an estimated average particle size of 100 nm. Simultaneous thermal gravimetric analysis and differential thermal analysis (TGA/DTA) was used to identify the decomposition sequence as a function of temperature for the as‐synthesized sol‐gel powders. Crystallization was confirmed by X‐ray diffraction (XRD) and a single phase was achieved by calcining at 1000°C. The calcined powders were hot‐pressed at 1400°C to achieve >96% theoretical density with closed pore structure followed by a hot isostatic pressing at 1400°C at 207 MPa to achieve a fully dense structure. Microstructural characterization shows a uniform grain size distribution with an average grain size of about 7 μm. In‐line transmission measurements revealed high transparency in the red and infrared. Thermal conductivity was measured to be >1.6 W/mK at room temperature, decreasing to ~1.3 W/mK by 500°C. Dielectric properties remain stable with relative permittivity values just above 200 and loss tangents <0.005 up to 350°C. |
| Keywords: | hot pressing optical materials/properties polycrystalline materials sol‐gel transparent ceramics |
