In this paper, cold sintering was served as a forming method to assist的简体中文翻译

In this paper, cold sintering was s

In this paper, cold sintering was served as a forming method to assist the conventional sintering, which is so-called cold sintering assisted sintering (CSAS) method. Lead-free K0.5Na0.5NbO3 piezoelectric ceramics were prepared by the CSAS method, and the effects of the different procedures on the sintering behaviors and electrical properties of KNN ceramics were studied. Compared with conventional sintering (CS), cold sintering process can induce potassium-rich phase on the KNN particle surface, and remarkably increase both the green and sintering density of KNN ceramics. Meanwhile, the potassium-rich phase would transform to K4Nb6O17 second phase on the grain surface, and subsequently suppress the volatilization of potassium element. The sinterability and electrical properties were greatly improved, and KNN piezoelectric ceramics with high performance can be manufactured in a wide sintering temperature range (1055℃-1145℃), which proves that CSAS has the potential to be an excellent sintering technique for producing KNN based ceramics.
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在本文中,冷烧结被用作辅助传统烧结的形成方法,即所谓的冷烧结辅助烧结(CSAS)方法。采用CSAS方法制备了无铅K0.5Na0.5NbO3压电陶瓷,研究了不同工艺对KNN陶瓷烧结行为和电性能的影响。与常规烧结(CS)相比,冷烧结工艺可以在KNN颗粒表面诱导出富钾相,并显着提高KNN陶瓷的生坯密度和烧结密度。同时,富钾相将在晶粒表面转变为K4Nb6O17第二相,从而抑制钾元素的挥发。烧结性和电性能大大提高,
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结果 (简体中文) 2:[复制]
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In this paper, cold sintering was served as a forming method to assist the conventional sintering, which is so-called cold sintering assisted sintering (CSAS) method. Lead-free K0.5Na0.5NbO3 piezoelectric ceramics were prepared by the CSAS method, and the effects of the different procedures on the sintering behaviors and electrical properties of KNN ceramics were studied. Compared with conventional sintering (CS), cold sintering process can induce potassium-rich phase on the KNN particle surface, and remarkably increase both the green and sintering density of KNN ceramics. Meanwhile, the potassium-rich phase would transform to K4Nb6O17 second phase on the grain surface, and subsequently suppress the volatilization of potassium element. The sinterability and electrical properties were greatly improved, and KNN piezoelectric ceramics with high performance can be manufactured in a wide sintering temperature range (1055℃-1145℃), which proves that CSAS has the potential to be an excellent sintering technique for producing KNN based ceramics.
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结果 (简体中文) 3:[复制]
复制成功!
本文将冷烧结作为辅助传统烧结的成型方法,即所谓的冷烧结辅助烧结(CSAS)。采用CSAS法制备了无铅K0.5Na0.5NbO3压电陶瓷,研究了不同制备工艺对KNN陶瓷烧结性能和电学性能的影响。与传统烧结工艺相比,冷烧结工艺可以在KNN颗粒表面形成富钾相,显著提高了KNN陶瓷的生坯密度和烧结密度。同时,富钾相在晶粒表面转变为K4Nb6O17第二相,从而抑制了钾元素的挥发。在1055℃-1145℃的较宽烧结温度范围内可以制备出高性能的KNN压电陶瓷,这证明CSAS有可能成为制备KNN基陶瓷的优良烧结技术。<br>
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