Ferroelectric-antiferroelectric (FE-AFE) phase change pyroelectric ceramic material, ceramic element thereof and preparation methods of material and element
A technology of pyroelectric ceramics and ceramic materials, which is applied in the field of phase change pyroelectric ceramics, ferroelectric-antiferroelectric phase change pyroelectric ceramic materials and ceramic components, and can solve the problems of limited practical application and large thermal hysteresis
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Embodiment 1
[0051] The chemical formula of ferroelectric-antiferroelectric pyroelectric ceramic material is:
[0052] Pb 0.97 La 0.02 (Zr 0.42 Ti 0.18 sn 0.40 )O 3
[0053] (1) Calculate the composition Pb in the powder raw material according to the composition of the above chemical formula 3 o 4 , ZrO 2 、TiO 2 , SnO 2 and La 2 o 3 The quality and according to the composition ratio preparation, mixed by wet ball milling, according to raw material: ball: water = 1: 1.6: 0.8 mass ratio mixed for 6 hours, so that each component is mixed evenly. After drying, add 10wt.% deionized water of the powder raw material, briquette in the air atmosphere, raise the temperature to 850°C at a rate of less than 2°C / min, and keep it warm for 2 hours to synthesize Pb 0.97 La 0.02 (Zr 0.42 Ti 0.18 sn 0.40 )O 3 of ceramic powder.
[0054] (2) The ceramic powder obtained in step (1) is crushed, passed through a 30-mesh sieve, and finely ground by wet ball milling for 24 hours, and the cerami...
Embodiment 2
[0066] The chemical formula of ferroelectric-antiferroelectric pyroelectric ceramic material is:
[0067] Pb 0.9625 La 0.025 (Zr 0.42 Ti 0.18 sn 0.40 )O 3
[0068] By repeating the preparation method of Example 1 according to the above chemical formula, a high pyroelectric response can be obtained at a lower temperature.
[0069] The pyroelectric performance after polarization treatment was tested for the ceramic element of this embodiment, and the test results are shown in Table 1.
[0070] The pyroelectric performance and thermal hysteresis of temperature rise and fall were tested for the ceramic element in this embodiment, and the test results are shown in Table 2.
[0071] It has been detected that the obtained ceramic element is in the FE phase at room temperature, and the phase transition of the ceramic element will only occur under temperature induction, and the phase transition that occurs is FE-AFE phase transition.
Embodiment 3
[0073] The chemical formula of ferroelectric-antiferroelectric pyroelectric ceramic material is:
[0074] Pb 0.9775 La 0.015 (Zr 0.42 Ti 0.18 sn 0.40 )O 3
[0075] The preparation method of Example 1 was repeated according to the above chemical formula, and the product was tested.
[0076] It has been detected that the obtained ceramic element is in the FE phase at room temperature, and the phase transition of the ceramic element will only occur under temperature induction, and the phase transition that occurs is FE-AFE phase transition.
[0077] The ceramic element of this embodiment was tested for the pyroelectric performance after the polarization treatment, and the test results are shown in Table 1, and the pyroelectric peak value p max More than 450×10 -8 C·cm -2 ·K -1 , for 458×10 -8 C·cm -2 ·K -1 .
[0078] The ceramic element of this embodiment has been tested on the pyroelectric performance and thermal hysteresis of temperature rise and fall under the ac...
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