This paper describes the preparation of a piezoelectric glass ceramic material from potassium sodium niobate (Ko.sNa0.sNbO3; KNN) using a novel melting method. The effects of the subsequent heat-treatment on the opt...This paper describes the preparation of a piezoelectric glass ceramic material from potassium sodium niobate (Ko.sNa0.sNbO3; KNN) using a novel melting method. The effects of the subsequent heat-treatment on the optical, thermal, electrical, and mechanical properties of the material are carefully examined, and its crystal structure and surface morphol- ogy are characterized respectively by x-ray diffraction and scanning electron microscopy. This new material has a much higher piezoelectric coefficient (163 pC.N-1) than traditional piezoelectric ceramics (131 pC.N-1 ). On this basis therefore, a strategy for the future study and development of lead-free KNN-based piezoelectric glass ceramics is proposed.展开更多
文摘This paper describes the preparation of a piezoelectric glass ceramic material from potassium sodium niobate (Ko.sNa0.sNbO3; KNN) using a novel melting method. The effects of the subsequent heat-treatment on the optical, thermal, electrical, and mechanical properties of the material are carefully examined, and its crystal structure and surface morphol- ogy are characterized respectively by x-ray diffraction and scanning electron microscopy. This new material has a much higher piezoelectric coefficient (163 pC.N-1) than traditional piezoelectric ceramics (131 pC.N-1 ). On this basis therefore, a strategy for the future study and development of lead-free KNN-based piezoelectric glass ceramics is proposed.