A new kind of composite piezoelectric ceramics for large-displacement actuators, which were composed of reduced and unreduced layers, was prepared from normal PZT by chemical reduction. The stress distribution inside ...A new kind of composite piezoelectric ceramics for large-displacement actuators, which were composed of reduced and unreduced layers, was prepared from normal PZT by chemical reduction. The stress distribution inside the composite PZT was researched and the chemical reduction conditions were explored. The actuating properties of reduced PZT were also studied. It is found that the optimal ratio of reduced layer thickness for the composite structure is 0.3; Reduced composite PZT has lower resonance frequency and 3 times larger displacement than that of the traditional PZT; Re-oxide phases are found in reduced layer of composite PZT showing the reduction procedure needs to be improved.展开更多
A new three-phase PZT C/PVC composite comprising PZT(50 vol%),nanocrystalline PVC (50 vol%) and a small volume fraction f of black(C0was prepared by the hot-pressing technique.The dielectric property of the comp...A new three-phase PZT C/PVC composite comprising PZT(50 vol%),nanocrystalline PVC (50 vol%) and a small volume fraction f of black(C0was prepared by the hot-pressing technique.The dielectric property of the composite as α function of the frequency and the dielectric and piezoelectric properties as α function of the volume fraction f of C were studied.The measured dielectric property demonstrates that α percolation transition occurs in the three-phase composites as in normal two-phase metal-insulator continuum media.The dielectric constant varies slightly with f at f〈0.1 and increases rapidly when f is close to the percolation threshold at 1kHz.The optimum properties were obtained for f=0.5 before the percolation threshold in the PZT/C/PVC(50/f/(50-f)vol%)composite with its d33(20pC/N) being 50% higher than that of the PZT/PVC(50/50vol%),and its g33(47.23×10^-3Vm/N)and Kp(0.25) much higher than the earlier reported values,XRD patterns and P-E hysteresis loops were used to interpret the experimental results.展开更多
This article mainly deals with the preparation and properties of PZTthin films. A new type of Metal-Me tal Oxide composite target was developed. Relating factors have been discussed. The electrical and optical propert...This article mainly deals with the preparation and properties of PZTthin films. A new type of Metal-Me tal Oxide composite target was developed. Relating factors have been discussed. The electrical and optical properties of PZT thin films have also been studied.展开更多
The epoxy resin (E-51) was used as polymer matrix,conductive carbon black (CB) as conductive filler,and PZT was used to prepare a composite by curing.The effects of PZT and CB content on the properties of PZT/ CB/ EP ...The epoxy resin (E-51) was used as polymer matrix,conductive carbon black (CB) as conductive filler,and PZT was used to prepare a composite by curing.The effects of PZT and CB content on the properties of PZT/ CB/ EP piezoelectric composite were studied.When the PZT content reaches 40 wt%,the optimized vibration attenuation properties of PZT/CB/EP materials could be achieved with a loss factor of 0.9 from room temperature to 60 ℃.With the increase of PZT content,the bending strength of PZT/CB/EP piezoelectric composite vibration reduction material firstly increased from 45 MPa to 65 MPa and then decreased to 38 MPa.At room temperature,the dielectric constant increased from 7 to 50,and the dielectric loss increased from 0.1 to 0.5.展开更多
基金the Natural Science Foundation of Jiangsu Province(BK2006568)Chinese Aeronautics Foundation(05B52005)MOE,Brain Korea 21 Program in Korea Advanced Institute of Science and Technology
文摘A new kind of composite piezoelectric ceramics for large-displacement actuators, which were composed of reduced and unreduced layers, was prepared from normal PZT by chemical reduction. The stress distribution inside the composite PZT was researched and the chemical reduction conditions were explored. The actuating properties of reduced PZT were also studied. It is found that the optimal ratio of reduced layer thickness for the composite structure is 0.3; Reduced composite PZT has lower resonance frequency and 3 times larger displacement than that of the traditional PZT; Re-oxide phases are found in reduced layer of composite PZT showing the reduction procedure needs to be improved.
文摘A new three-phase PZT C/PVC composite comprising PZT(50 vol%),nanocrystalline PVC (50 vol%) and a small volume fraction f of black(C0was prepared by the hot-pressing technique.The dielectric property of the composite as α function of the frequency and the dielectric and piezoelectric properties as α function of the volume fraction f of C were studied.The measured dielectric property demonstrates that α percolation transition occurs in the three-phase composites as in normal two-phase metal-insulator continuum media.The dielectric constant varies slightly with f at f〈0.1 and increases rapidly when f is close to the percolation threshold at 1kHz.The optimum properties were obtained for f=0.5 before the percolation threshold in the PZT/C/PVC(50/f/(50-f)vol%)composite with its d33(20pC/N) being 50% higher than that of the PZT/PVC(50/50vol%),and its g33(47.23×10^-3Vm/N)and Kp(0.25) much higher than the earlier reported values,XRD patterns and P-E hysteresis loops were used to interpret the experimental results.
文摘This article mainly deals with the preparation and properties of PZTthin films. A new type of Metal-Me tal Oxide composite target was developed. Relating factors have been discussed. The electrical and optical properties of PZT thin films have also been studied.
基金Funded by State Key Laboratory of Power Grid Environmental Protection(No.GYW51201801173)。
文摘The epoxy resin (E-51) was used as polymer matrix,conductive carbon black (CB) as conductive filler,and PZT was used to prepare a composite by curing.The effects of PZT and CB content on the properties of PZT/ CB/ EP piezoelectric composite were studied.When the PZT content reaches 40 wt%,the optimized vibration attenuation properties of PZT/CB/EP materials could be achieved with a loss factor of 0.9 from room temperature to 60 ℃.With the increase of PZT content,the bending strength of PZT/CB/EP piezoelectric composite vibration reduction material firstly increased from 45 MPa to 65 MPa and then decreased to 38 MPa.At room temperature,the dielectric constant increased from 7 to 50,and the dielectric loss increased from 0.1 to 0.5.