Domain Wall Dynamics in Ferroelastic Crystals

被引:7
|
作者
Schranz, W. [1 ]
Kityk, A. V. [2 ]
机构
[1] Univ Vienna, Fac Phys, Nonlinear Phys Grp, A-1090 Vienna, Austria
[2] Czestochowa Tech Univ, Inst Comp Sci, PL-42200 Czestochowa, Poland
来源
FERROELECTRICS | 2008年 / 375卷
关键词
Domain freezing; phase transformations; perovskites; domain wall pinning; superelastic softening;
D O I
10.1080/00150190802438041
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Results of ultra-low-frequency dynamic mechanical analysis (Hz-region) measurements of the mixed fluoroperovskite crystals KMn(1-x)CaxF(3) (x <= 0.018) are presented in a wide temperature range including the regions of phase transitions. At low frequencies (0.1 Hz-50 Hz) a giant elastic softening (superelasticity) due to domain wall motion was found in the mixed system quite similar to that observed recently in the isostructural SrTiO3. Moreover, the low frequency elastic behaviour in KMn(1-x)CaxF(3) bears some important new features as compared to SrTiO3. For the first time we have measured the freezing of domain wall movement in a certain range of concentration of Ca2+ ions (x = 0.003).
引用
收藏
页码:178 / 186
页数:9
相关论文
共 50 条
  • [31] Ferroelastic orientation states and domain walls in lead phosphate type crystals
    Bismayer, U
    Mathes, D
    Bosbach, D
    Putnis, A
    van Tendeloo, G
    Novak, J
    Salje, EKH
    MINERALOGICAL MAGAZINE, 2000, 64 (02) : 233 - 239
  • [32] Birefringence measurements by means of light deflection at domain walls in ferroelastic crystals
    Kolata, P
    Guilbert, L
    Fantana, MD
    Salvestrini, JP
    Czapla, Z
    JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 2000, 17 (12) : 1973 - 1979
  • [33] FERROELASTIC PROPERTIES AND DOMAIN-STRUCTURE OF DIMETHYLAMMO-NIUMALUMINIUMSULPHATE CRYSTALS
    KIRPICHNIKOVA, LF
    PRASOLOV, BN
    IVANOV, NP
    SHUVALOV, LA
    GRIDNEV, SA
    VARIKASH, VM
    IZVESTIYA AKADEMII NAUK SSSR SERIYA FIZICHESKAYA, 1989, 53 (07): : 1386 - 1389
  • [34] On the role of deformation twinning in domain reorganization and grain reorientation in ferroelastic crystals
    Mullner, P
    Kriven, WM
    JOURNAL OF MATERIALS RESEARCH, 1997, 12 (07) : 1771 - 1776
  • [35] Motion of a planar domain wall in the ferroelectric-ferroelastic gadolinium molybdate
    Shur, BY
    Rumyantsev, EL
    Kuminov, VP
    Subbotin, AL
    Nikolaeva, EV
    PHYSICS OF THE SOLID STATE, 1999, 41 (01) : 112 - 115
  • [36] Domain-wall engineering and topological defects in ferroelectric and ferroelastic materials
    G. F. Nataf
    M. Guennou
    J. M. Gregg
    D. Meier
    J. Hlinka
    E. K. H. Salje
    J. Kreisel
    Nature Reviews Physics, 2020, 2 : 634 - 648
  • [37] A continuum analysis of the driving force of ferroelectric/ferroelastic domain wall motions
    Kessler, H
    Balke, H
    JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS, 2006, 54 (01) : 113 - 127
  • [38] Motion of a planar domain wall in the ferroelectric-ferroelastic gadolinium molybdate
    B. Ya. Shur
    E. L. Rumyantsev
    V. P. Kuminov
    A. L. Subbotin
    E. V. Nikolaeva
    Physics of the Solid State, 1999, 41 : 112 - 115
  • [39] Effect of wall thickness on the ferroelastic domain size of BaTiO3
    G. Catalan
    I. Lukyanchuk
    A. Schilling
    J. M. Gregg
    J. F. Scott
    Journal of Materials Science, 2009, 44 : 5307 - 5311
  • [40] Effect of wall thickness on the ferroelastic domain size of BaTiO3
    Catalan, G.
    Lukyanchuk, I.
    Schilling, A.
    Gregg, J. M.
    Scott, J. F.
    JOURNAL OF MATERIALS SCIENCE, 2009, 44 (19) : 5307 - 5311
12345