X F Chen scite author profile

The effects of poling state and pores on the fracture toughness of Pb(Zr 0?95 Ti 0?05 )O 3 (PZT 95/5) ferroelectric ceramics were investigated. X-ray diffraction analysis and piezoelectric constant measurements reveal that the phase structures of PZT 95/5 ceramics change with the poling state, which significantly affects the fracture toughness. The poled PZT 95/5 ceramics demonstrate higher fracture toughness than the unpoled ceramics, and their fracture toughness significantly increases after the pressure depoling. As the porosity of ceramics increases with addition of poreformer during preparation, their fracture toughnesses all decrease accordingly either in poled state or unpoled state. The effect of pore size on the fracture toughness is subtle for the poled ceramics, but for the hydrostatic pressure depoled porous PZT 95/5 ceramics, their fracture toughness increases with the increase in pore size. A new stress model is proposed to explain the pore size effect on the fracture toughness of hydrostatic pressure depoled PZT 95/5 ceramics.

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X F Chen

Interband electronic transitions and phase diagram of PbZr_1−xTi_xO₃(0.05 ≤x≤ 0.70) ceramics: ellipsometric experiment and first-principles theory

Effects of poling state and pores on fracture toughness of Pb(Zr_0·95Ti_0·05)O₃ferroelectric ceramics

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X F Chen

Interband electronic transitions and phase diagram of PbZr1−xTixO3(0.05 ≤x≤ 0.70) ceramics: ellipsometric experiment and first-principles theory

Effects of poling state and pores on fracture toughness of Pb(Zr0·95Ti0·05)O3ferroelectric ceramics

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Interband electronic transitions and phase diagram of PbZr_1−xTi_xO₃(0.05 ≤x≤ 0.70) ceramics: ellipsometric experiment and first-principles theory

Effects of poling state and pores on fracture toughness of Pb(Zr_0·95Ti_0·05)O₃ferroelectric ceramics