Preparation and Dielectric Properties of Si₃N₄/BN(CB) Composite Ceramic

Abstract: Si3N4/nano-carbon black (CB) composite ceramics with boron nitride (BN) as interphase were fabricated by gelcasting. The results of scanning electron microscopy (SEM) and X-ray diffraction (XRD) showed that the structures of BN interphase and BN coated CB were formed and were uniform distributed in the Si3N4 ceramic. The permittivity (ε′ε″) of BN-coated CB was obviously lower than that of the pure CB, and the impedance of the BN-coated CB particles was close to the Z0 (Z0 = 1, Z0 is impedance under vacuum) com… Show more

“…An ideal microwave absorbing material should be composed of an electrically insulating phase (A phase) and an electrically lossy phase (B phase), namely, an A/B type structure 4–9 . Using PDCs method, a medium electrically lossy phase C can be introduced, which then forms an A/B/C type absorbing structure with better dielectric property designability 10 .…”

“…An ideal microwave absorbing material should be composed of an electrically insulating phase (A phase) and an electrically lossy phase (B phase), namely, an A/B type structure. [4][5][6][7][8][9] Using PDCs method, a medium electrically lossy phase C can be introduced, which then forms an A/B/C type absorbing structure with better dielectric property designability. 10 TiC, with low density, high melting point, excellent electrical properties, good chemical stability, and excellent mechanical properties, can be used in extreme environments, such as aircraft nose cone, wing leading edge, and engine hot ends.…”

Dielectric and microwave absorption properties of polymer‐derived TiC/SiC/SiOC multiphase ceramics in X band

“…An ideal microwave absorbing material should be composed of an electrically insulating phase (A phase) and an electrically lossy phase (B phase), namely, an A/B type structure 4–9 . Using PDCs method, a medium electrically lossy phase C can be introduced, which then forms an A/B/C type absorbing structure with better dielectric property designability 10 .…”

“…An ideal microwave absorbing material should be composed of an electrically insulating phase (A phase) and an electrically lossy phase (B phase), namely, an A/B type structure. [4][5][6][7][8][9] Using PDCs method, a medium electrically lossy phase C can be introduced, which then forms an A/B/C type absorbing structure with better dielectric property designability. 10 TiC, with low density, high melting point, excellent electrical properties, good chemical stability, and excellent mechanical properties, can be used in extreme environments, such as aircraft nose cone, wing leading edge, and engine hot ends.…”

Dielectric and microwave absorption properties of polymer‐derived TiC/SiC/SiOC multiphase ceramics in X band

Mechanical and Microwave‐Absorption Properties of Si₃N₄ Ceramic with SiCNFs Fillers