论文信息 - X‐ray diffraction and dielectric temperature dependence study of the K2Cd2(SO4)3 paraelastic‐ferroelastic phase transition

X‐ray diffraction and dielectric temperature dependence study of the K2Cd2(SO4)3 paraelastic‐ferroelastic phase transition

The thermal expansion coefficients of the orthorhombic a, b, and c axes in langbeinite‐type K2Cd2(SO4)3 are α=24(2) ×10−6, 12(1) ×10−6, and 19(2) ×10−6 deg−1, β=5(1) ×10−8, 8(1) ×10−8, and 5(1) ×10−8 deg−2, γ=2(1) ×10−10, −6(1) ×10−10, and 6(1) ×10−10 deg−3, respectively, between 287 and 425 K. Above the first‐order phase transition at Tc=432 K, α=19(1) ×10−6 deg−1. The sulfate tetrahedra angular rotations are less than 5° between 298 and 417.5 K but are as much as 20° between 417.5 and 443.5 K. Over 70% of the rotations are estimated to take place within 2–3 K of Tc. The room‐temperature dielectric constants e1, e2, and e3 are about 8, 8, and 16, respectively, at 1 kHz: a jump of about 5% occurs at Tc. Two spontaneous strains decrease markedly as Tc is approached, but all three remain greater than 2×10−3. The ferroelastic displacements decrease by as much as 0.25 A between 298 and 417.5 K to values ranging from 0.22 to 0.91 A. The absolute sense of the piezoelectric shear coefficient d14 has been measure...

K. Nassau | S. Abrahams | J. Bernstein | F. Lissalde

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