Hua Sun scite author profile

J Polym Sci B Polym Phys

et al. 2009

Dispersed solutions of poly(vinylidene fluoride) (PVDF)/polycarbonate (PC) in the mixed solvent of N,N-dimethylformamide (DMF)/tetrahydrofuran (THF) were used to electrospin in order to discuss the relationship between the properties of the polymer dispersions and the morphology of the obtained ultrafine fibers. With the changes of the mass ratio of PVDF/PC, the relative molecular mass of PVDF, and the volume ratio of DMF/THF, the morphology and the microstructure of the prepared PVDF/PC ultrafine fibers altered in accord with the viscosity, surface tension, and conductivity of the PVDF/PC dispersions. When the PVDF/PC mass ratio varied from 9/1 to 5/5, the ability of the polymer chain entanglement in PVDF/PC dispersion decreased as to the lower relative molecular mass of PC and higher chain rigidity, which lead to the formation of the beaded fibers together with the distinct core/shell structure. Similar phenomenon was also found when the lower molecular mass of PVDF was used instead of a higher one. Though the change of DMF/THF volume ratio did not specifically contribute to the properties of PVDF/PC dispersions, the accelerated evaporation and solubility of the mixed solvent by the THF amount increasing was feasible to generate the uniform fibrous morphology and the distinct core/shell structure.

Research on Function Aggregate Prepared by Steel Wastewater Sludge

Ding

Huang

et al. 2010

AMR

Industrial wastewater sludge contains a certain amount of heavy metals, which will cause environmental pollution. In this paper high Cr, Zn content wastewater sludge from steel plant was used as the main raw material, with Kaolin and other materials as adjustment materials. Through optimization design of raw mix composition and firing system, a kind of function aggregate was got, which had an apparent relative density of about 3.0 g/cm3, a vacuum water absorption between 16%~23%, and a linear attenuation coefficient more than 0.15cm-1. Use XRD and SEM to analyze the existence state of heavy metals in aggregates. The novel method for making function aggregates provides a technical support for resource utilization of steel wastewater sludge, which could be applied in the field of high strength concrete and radiation shielding concrete.

The Effect of Particle Size on the Electromechanical Properties of PZT/PVDF

Liu

Wei

et al. 2009

AMR

The Nb modified PZT piezoelectric ceramic was synthesized by conventional solid-state reaction, where all of different particle sizes had the same physical properties. 0-3 modified PZT/PVDF composites were formed by hot-pressing method. The particle size effect of modified PZT on the relative dielectric and piezoelectric properties of the composites were investigated. The relative dielectric constant εr, piezoelectric constant d33 and electromechanical coupling factor kp were higher in the composite containing larger PZT particle size. The microstructures of the composites were studied by SEM, the composite with the finer PZT particle size was more homogeneous, but larger particle size was easy to be contacted. In a high volume fraction particle-loaded composite, some piezoelectric ceramic particle appeared to be in contact, as in a 1-3 connectivity pattern. The larger particle size of modified PZT itself could be seen as the grain of modified PZT contact in a 1-3 connectivity pattern and easy to be contacted each other compared to the finer particle size in the composites, thus reducing the resistance of the composites and the poling process became effective, which led to higher properties. The optimal particle size of PZT is about 100μm, the Nb modified PZT/PVDF (volume fraction 70/30) composite show higher dielectric and piezoelectric properties than the others, εr=156.6, d33=69pC/N and kp=0.358.

Preparation of PMZN Piezoceramic Using Sol-Autocombustion Synthesized PZT Powder as a Base

Chen

et al. 2007

KEM

Using Zr(NO3)4.5H2O as Zr source, PZT powder with a single-phase perovskite structure was synthesized by a sol-autocombustion method at a calcining temperature of 700°C. Compared with a solid-state reaction method, the calcining temperature of PZT can be lowered by 200°C when using the sol-autocombustion method. PMZN ceramic was prepared at a sintering temperature of 1050°C with the resulting PZT powder as a base, which can lower the sintering temperature by 150°C. The microstructure of the PMZN ceramic was investigated by XRD and SEM, and the dielectric and piezoelectric properties were measured. The results showed that the PMZN piezoelectric ceramic has a tetragonal perovskite structure, showing the main electrical properties as follows: Kp = 0.54, Qm = 1073, tgd £ 0.001, e33 T/ e0 = 1236, d33 = 454pC/N, and fs =136.1KHz.

Electron Structure and Piezoelectric Characteristics of PMZN System Piezoceramics

Zhou

Chen

et al. 2007

KEM

The electron structure of Pb(Zr1/2Ti1/2)O3(PZT), Pb(Zn1/3Nb2/3)O3(PZN) and Pb(Mn1/3Sb2/3)O3 (PMS) systems was calculated by the SCF-DV-Xα calculation method. The effects of ABO3-type perovskite and pyrochlore ceramic electron structure on their piezoelectricity were also studied. The results showed that the ferroelectric phase is more stable than paraelectric phase and the necessary condition of stable existing ferroelectric is the mixed orbit of O2p orbit and the out layer d orbit of B-site atom. The stability of ferroelectricity can be indicated by the strength of mixed orbit. When (Zr, Ti) was substituted by Mn1/3Sb2/3, Zn1/3Nb2/3, if it could form tetragonal perovskite structure, the total system energy would reduce and the mixed orbit will enhance, which improves the ferroelectricity of PZT system. However, if it forms a cubic pyrochlore structure, the ferroelectricity would lose because the covalent bond strength of B-O (axial direction) and B-O (vertical axial direction) is different obviously, which lead to the system structure become unstable.