1. IR-transparent MgO-Gd2O3 composite ceramics produced by self-propagating high-temperature synthesis and spark plasma sintering
- Author
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Maksim Boldin, Dmitry A. Permin, Stanislav Balabanov, Ksenia E. Smetanina, Igor V. Ladenkov, Vitaly A. Koshkin, Nadia M. Khamaletdinova, Alexander V. Belyaev, Atrem A. Murashov, and E. A. Lantsev
- Subjects
Materials science ,Annealing (metallurgy) ,Composite number ,Self-propagating high-temperature synthesis ,Spark plasma sintering ,Electronic, Optical and Magnetic Materials ,Fracture toughness ,visual_art ,Ceramics and Composites ,visual_art.visual_art_medium ,Ceramic ,Crystallite ,Composite material ,Powder diffraction - Abstract
A glycine-nitrate self-propagating high-temperature synthesis (SHS) was developed to produce composite MgO-Gd2O3 nanopowders. The X-ray powder diffraction (XRD) analysis confirmed the SHS-product consists of cubic MgO and Gd2O3 phases with nanometer crystallite size and retains this structure after annealing at temperatures up to 1200 °C. Near full dense high IR-transparent composite ceramics were fabricated by spark plasma sintering (SPS) at 1140 °C and 60 MPa. The in-line transmittance of 1 mm thick MgO-Gd2O3 ceramics exceeded 70% in the range of 4–5 mm and reached a maximum of 77% at a wavelength of 5.3 mm. The measured microhardness HV0.5 of the MgO-Gd2O3 ceramics is 9.5±0.4 GPa, while the fracture toughness (KIC) amounted to 2.0±0.5 MPa·m1/2. These characteristics demonstrate that obtained composite MgO-Gd2O3 ceramic is a promising material for protective infra-red (IR) windows.
- Published
- 2021