Your search keyword '"Zhao, Xuetong"' showing total 6 results

1. Largely enhanced dielectric properties of polymer composites with HfO2 nanoparticles for high-temperature film capacitors

Author

Ren, Lulu, Yang, Lijun, Zhang, Siyu, Li, He, Zhou, Yao, Ai, Ding, Xie, Zongliang, Zhao, Xuetong, Peng, Zongren, Liao, Ruijin, and Wang, Qing

Subjects

Affordable and Clean Energy, Polymer nanocomposites, Hafnium oxide nanoparticles, High temperature, Dielectric properties, Energy storage, Engineering, Materials

Abstract

Polymer dielectrics are preferred materials for high-energy-density capacitive energy storage. In particular, high-temperature dielectrics that can withstand harsh conditions, e.g., ≥150 °C, is of crucial importance for advanced electronics and electrical power systems. Herein, high-temperature dielectric polymer composites composed of polyetherimide (PEI) matrix and hafnium oxide (HfO2) nanoparticles are presented. It is found that the incorporation of HfO2 with a moderate dielectric constant and a wide bandgap improves the dielectric constant and simultaneously reduces the high-field leakage current density of the PEI nanocomposites. As a result, the PEI/HfO2 composites exhibit superior energy storage performance to the current high-temperature engineering polymers at elevated temperatures. Specifically, the nanocomposite with 3 vol% HfO2 displays a discharged energy density of 2.82 J/cm3 at 150 °C, which is 77% higher than neat PEI. This work demonstrates the effectiveness of incorporation of the nanofiller with a medium dielectric constant into the polymer on the improvement of high-temperature capacitive properties of the polymer composites.

Published

2021

2. Hybrid low‐temperature sintering processes of electro‐ceramics.

Author

Li, Xiaomeng, Fu, Changli, Xu, Weichen, Zhao, Xuetong, Xu, Wan, Wang, Fuliang, and Guo, Jing

Subjects

CERAMICS, MICROWAVE sintering, MICROWAVE plasmas, SINTERING, DIELECTRIC properties, TIME pressure, HIGH temperatures, PLASMA materials processing

Abstract

Cold sintering process (CSP) developed recently has attracted much attention due to the ultralow sintering temperatures and high efficiencies with the assist of transient liquid phase (TLP). Based on CSP, we have further established a protocol for low‐temperature sintering processes by combining TLP with other sintering technologies, including hybrid sintering process with microwave and TLP (MW‐TLP), and hybrid sintering process with spark plasma sintering and TLP (SPS‐TLP). Three typical electro‐ceramics (TiO2, CaWO4, and ZnO) are selected, which are highly densified (>97%) with excellent electrical properties at reduced sintering temperatures, applied pressures or holding times, demonstrating the feasibility of MW‐TLP and SPS‐TLP in fabricating electro‐ceramics. Especially, the Q × f value of TiO2 ceramics (38,020 GHz) prepared by MW‐TLP at 1000°C is 46.2% and 23.4% higher than that of microwave and spark plasma sintered samples, respectively, and comparable to traditional thermal sintered (TTS) samples at 1300–1400°C. The dielectric properties of MW‐TLP CaWO4 ceramics sintered at 900°C for 2 h are comparable to TTS samples sintered at 1000–1300°C for 2–5 h. ZnO ceramics can be highly densified (∼98%) by SPS‐TLP with mild sintering conditions (200–300°C and 3.8–50 MPa) compared to SPS (>500°C) and CSP (>100 MPa). The frameworks of fundamental mechanisms are outlined together with the experimental data. It is expected that this work will provide promising sintering methods to fabricate electro‐ceramics and offer inspirations on sintering combinations to develop low‐temperature sintering processes with high efficiencies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Structural Changes and Very-Low-Frequency Nonlinear Dielectric Response of XLPE Cable Insulation under Thermal Aging.

Author

Wang, Can, Zhao, Xuetong, Qiao, Jingqi, Xiao, Yongjian, Zhang, Jie, Li, Yuchen, Cao, Hanzhong, Yang, Lijun, and Liao, Ruijin

Subjects

*THERMAL insulation, *DIELECTRICS, *DIELECTRIC properties, *DIELECTRIC loss, *PARTIAL discharges, *INSULATING materials, *TREES (Electricity)

Abstract

The structural changes and very-low-frequency (VLF) nonlinear dielectric responses are measured to evaluate the aging state of cross-linked polyethylene (XLPE) in power cables under various thermal aging conditions. For this purpose, the accelerated thermal aging experiments were performed on XLPE insulation materials at 90 °C, 120 °C and 150 °C with different durations of 240 h, 480 h and 720 h, respectively. The Fourier transform infrared spectrum (FTIR) characterization and differential scanning calorimeter (DSC) were tested to analyze the influence of different aging on physicochemical properties of XLPE insulation. Besides, the VLF dielectric spectra show that the permittivity and dielectric loss change significantly in the VLF range from 1 mHz to 0.2 Hz. A voltage–current (U–I) hysteresis curve referring to a standard sinusoidal voltage and the response current were introduced to characterize the nonlinear dielectric properties of XLPE insulation caused by thermal aging. [ABSTRACT FROM AUTHOR]

Published

2023

4. Role of Relaxation on the Giant Permittivity and Electrical Properties of CaCu3Ti4O12 Ceramics

Author

Zhao, Xuetong, Ren, Lulu, Liao, Ruijin, Li, Jianying, Yang, Lijun, and Wang, Feipeng

Published

2016

5. Improved dielectric properties of indium and tantalum co-doped CaCu3Ti4O12 ceramic prepared by spark plasma sintering.

Author

Sun, Jianjie, Xu, Chao, Zhao, Xuetong, Liang, Jie, and Liao, Ruijin

Subjects

DIELECTRIC properties, SINTERING, INDIUM, TANTALUM, ENERGY density, DIELECTRIC loss, DIFFRACTION patterns, MICROWAVES

Abstract

The current-voltage characteristics and dielectric properties of indium and/or tantalum doped CaCu 3 Ti 4 O 12 (CCTO) ceramics prepared by spark plasma sintering are investigated in this work. The X-ray diffraction patterns reveal the formation of pure cubic perovskite CCTO with no impurity phase. The grain size is suppressed by doping In and Ta, and the densification of the CCTO ceramics is achieved, showing a relative density of about 97.5%. The approach of 0.5 mol% In and Ta co-doping results in enhanced energy density and electrical properties. The energy density is increased by more than 30 % and the breakdown field E b is improved to 9.67 kV/cm. Similarly, the lowest dielectric loss of 0.024 at nearly 1 kHz can be obtained in the co-doped sample, which can be attributed to the enhancement of the conductance activation energy and Schottky barrier height. [ABSTRACT FROM AUTHOR]

Published

2020

6. Colossal breakdown electric field and dielectric response of Al-doped CaCu3Ti4O12 ceramics.

Author

Jia, Ran, Zhao, Xuetong, Li, Jianying, and Tang, Xian

Subjects

*CALCIUM compounds, *ELECTRIC breakdown, *ELECTRIC fields, *DIELECTRICS, *ALUMINUM, *DOPING agents (Chemistry), *TITANIUM oxides, *CERAMIC metals

Abstract

Highlights: [•] An extremely enhanced breakdown electric field of ∼21kV/cm was achieved. [•] A new secondary phase of CuAl2O4 in CaCu3Ti4O12 was found. [•] The grain boundary resistance was increased from 0.37MΩ to 13.55MΩ at 393K. [•] The activation energy of grain boundary was elevated from 0.63 to 0.81eV. [•] Dimensional effect of CaCu3Ti4O12 was found. [Copyright &y& Elsevier]

Published

2014