Phys.org  November 17, 2021 An international team of researchers (USA – University of Minnesota, Germany) discovered that the systematic tuning of crystal lattice parameters to achieve improved kinematic compatibility between different phases is a broadly effective strategy for improving the reversibility, and lowering the hysteresis, of solid–solid phase transformations. They showed that when cooling the kinematically compatible ceramic (Zr/Hf)O2(YNb)O4 through its tetragonal-to-monoclinic phase transformation, the polycrystal slowly and steadily falls apart at its grain boundaries or even explosively disintegrates. However, when they tuned the lattice parameters to satisfy a stronger ‘equidistance’ condition, the resulting material exhibits reversible behaviour with low […]