Sintering behavior, crystalline structure and microwave dielectric properties of Li2(Ni1-xMgx)3TiO6 (0 ≤ x ≤ 1) ceramics

“…This is due to the electrically charged nature of the ions that make up this material, which causes positions where the same charge ions are placed close to each other, causing static repulsion. These facts provoke the fracture of the ceramic materials [31,32], and cause the occurrence of nonlinear elastic behavior, as verified in Fig. 2a.…”

Analysis of deformability modulus by linear and nonlinear elastic methods in ceramic structural masonry and mortars

“…This is due to the electrically charged nature of the ions that make up this material, which causes positions where the same charge ions are placed close to each other, causing static repulsion. These facts provoke the fracture of the ceramic materials [31,32], and cause the occurrence of nonlinear elastic behavior, as verified in Fig. 2a.…”

Analysis of deformability modulus by linear and nonlinear elastic methods in ceramic structural masonry and mortars

“…In general, the smaller the |s f |, the better the thermal stability of dielectric ceramics. 39 In this work, the phase composition and crystal structure had no signicant effect on s f value. Therefore, the change of s f value can be attributed to famous Lichtenecker empirical logarithmic rule: 40 Fig.…”

Microwave dielectric properties of low-temperature-fired MgNb₂O₆ ceramics for LTCC applications

Dependence of microwave dielectric properties on the substitution of isovalent composite ion for Nb-site of MgZrNb2−x(Sn1/2W1/2)xO8 (0 ≤ x ≤ 0.15) ceramics