TY - JOUR
T1 - Effects of ZnO nanoneedles addition on the mechanical and piezoelectric properties of hard PZT-based composites
AU - Li, Hong Bo
AU - Li, Yong
AU - Wang, Da Wei
AU - Lu, Ran
AU - Yuan, Jie
AU - Cao, Mao Sheng
PY - 2013/5
Y1 - 2013/5
N2 - Hard PZT (PZT4)-based composites embedded by ZnO nanoneedles (denoted as PZT/ZnOn) were fabricated by a solid state sintering technique. The characteristic diffraction peaks of the perovskite PZT and ZnO phases were identified from the studied composites, indicating the retention of ZnO n. With increasing ZnOn content, the grain size of the composites was reduced gradually. In contrast with the pure PZT, the PZT/ZnOn composites possessed more excellent mechanical properties, while the piezoelectric properties were reduced by a certain extent. The best mechanical properties of PZT/ZnOn composites were obtained by sintering at 1,150 °C with 1.5 wt% ZnO nanoneedles addition: fracture toughness KIC ∼ 2.04 MPa m1/2, flexural strength σf ∼ 105.44 MPa, compressive strength σc ∼ 543.89 MPa. The piezoelectric properties of the PZT/ZnOn composites were found to be lower than that of the pure PZT with dielectric permittivity εr of 768-893, piezoelectric coefficient d 33 of 240-260pC/N, mechanical quality factor Qm of 340-650 and planar electromechanical coupling kp of 0.5-0.55.
AB - Hard PZT (PZT4)-based composites embedded by ZnO nanoneedles (denoted as PZT/ZnOn) were fabricated by a solid state sintering technique. The characteristic diffraction peaks of the perovskite PZT and ZnO phases were identified from the studied composites, indicating the retention of ZnO n. With increasing ZnOn content, the grain size of the composites was reduced gradually. In contrast with the pure PZT, the PZT/ZnOn composites possessed more excellent mechanical properties, while the piezoelectric properties were reduced by a certain extent. The best mechanical properties of PZT/ZnOn composites were obtained by sintering at 1,150 °C with 1.5 wt% ZnO nanoneedles addition: fracture toughness KIC ∼ 2.04 MPa m1/2, flexural strength σf ∼ 105.44 MPa, compressive strength σc ∼ 543.89 MPa. The piezoelectric properties of the PZT/ZnOn composites were found to be lower than that of the pure PZT with dielectric permittivity εr of 768-893, piezoelectric coefficient d 33 of 240-260pC/N, mechanical quality factor Qm of 340-650 and planar electromechanical coupling kp of 0.5-0.55.
UR - http://www.scopus.com/inward/record.url?scp=84893704984&partnerID=8YFLogxK
U2 - 10.1007/s10854-012-0953-9
DO - 10.1007/s10854-012-0953-9
M3 - Article
AN - SCOPUS:84893704984
SN - 0957-4522
VL - 24
SP - 1463
EP - 1468
JO - Journal of Materials Science: Materials in Electronics
JF - Journal of Materials Science: Materials in Electronics
IS - 5
ER -