Your search keyword '"Zheng, Chunyang"' showing total 4 results

1. Synthesis and Performance of Polycarboxylate Superplasticizer with Viscosity-Reducing and Low-Shrinkage Properties for Fair-Faced Concrete.

Author

Li, Wei, Qian, Chunxiang, Zheng, Chunyang, Jiang, Haidong, Yu, Zhenxiao, Wu, Zefan, and Zhou, Zhuang

Subjects

MALEIC anhydride, CONCRETE, EXPANSION & contraction of concrete, ETHYLENE glycol, MOLECULAR structure, SYNTHETIC fibers

Abstract

A low-shrinkage and viscosity-reducing polycarboxylate superplasticizer was synthesized with maleic anhydride (MAH), diethylene glycol monobutyl ether, and methoxypoly (ethylene glycol) methacrylate (MPEGnMA). The surface tension, early shrinkage, cement paste performance, and application performance of concrete made with the synthesized water-reducing admixture were tested. A series of experiments were conducted to determine the optimal range of plastic viscosity coefficients for producing high-quality, fair-faced concrete with minimal surface defects. These experiments utilized both the synthesized water-reducing admixture alone and in combination with other water-reducing agents. The results showed that the synthesized water-reducing admixture had an ideal molecular structure, as confirmed by the GPC spectrum. When added to an aqueous solution, it reduced the surface tension from 72.47 mN/m to 30.56 mN/m. The 72 h shrinkage value of concrete was reduced by 20.6% compared with that of the conventional control group, effectively reducing shrinkage and adjusting the viscosity of the concrete mixture. Additionally, the influence of the plastic viscosity coefficient on the apparent voids in fair-faced concrete was investigated. This study revealed that when the plastic viscosity coefficient was between 5 and 10 Pa·s, the apparent void grade of the fair-faced concrete was simultaneously excellent and good. This water-reducing admixture helped prevent surface cracking and voids in fair-faced concrete, making it a suitable choice for producing high-quality fair-faced concrete surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of n-C-S-H on Hydration and Reinforcement of Mineral Powder-Cement System at Low Temperatures.

Author

Li, Wei, Qian, Chunxiang, Li, Qingchao, Wang, Kehan, Zheng, Chunyang, and Zhang, Yanli

Subjects

LOW temperatures, HYDRATION, MINERALS, X-ray diffraction, COMPRESSIVE strength, PORTLAND cement

Abstract

This paper investigated the effect of nano-calcium silicate hydrate (n-C-S-H) on the early compressive strength of mineral powder-cement systems under low-temperature curing conditions (5 °C). The hydration mechanism of n-C-S-H in the mineral powder-cement system at different dosages was analyzed by combining it with XRD, DSC-TG, MIP, and other techniques. The results show that n-C-S-H significantly enhances the early compressive strength of the mineral powder-cement system under low-temperature curing conditions, with optimal results observed at a dosage of 1.0% (mass fraction). The XRD, DSC-TG, and MIP tests reveal that n-C-S-H promotes the hydration of the mineral powder cement, accelerates the generation rate of hydration products, reduces the porosity of the hardened mineral powder-cement slurry, and improves the system's density. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enhanced Proton Acceleration from Laser Interaction with a Tailored Nanowire Target.

Author

Chao, Yue, Cao, Lihua, Zheng, Chunyang, Liu, Zhanjun, and He, Xiantu

Subjects

NANOWIRES, PROTONS, LASERS, LASER-plasma interactions, LASER pulses

Abstract

Target normal sheath field acceleration via laser interaction with structured solid targets has been widely studied for its potential use in a wide range of applications. Here, a novel nanowire target with a corrugated front surface is proposed to improve the proton acceleration by a target normal sheath field. Two-dimensional particle-in-cell simulations demonstrated that with the existence of the corrugated surface, the cut-off energy of accelerated protons nearly doubles compared to the planar nanowire target. When interacting with the corrugated surface, the incident laser pulse is reflected multiple times, focused and reinforced in each cavity near the front surface, which leads to suppression of the reflectivity and an improvement in the absorption rate. Electrons are heated more efficiently and the sheath field at the target rear side is naturally enhanced. To further investigate the performance of this novel target, a series of simulations with various laser intensities and target sizes were also carried out. This simple target design may provide insights for experiments in the future and should arouse interest because of its wide application. [ABSTRACT FROM AUTHOR]

Published

2022

4. One-Pot Hydrothermal Synthesis of La-Doped ZnIn 2 S 4 Microspheres with Improved Visible-Light Photocatalytic Performance.

Author

Jia, Tiekun, Liu, Ming, Zheng, Chunyang, Long, Fei, Min, Zhiyu, Fu, Fang, Yu, Dongsheng, Li, Jili, Lee, Joong Hee, and Kim, Nam Hoon

Subjects

MICROSPHERES, HYDROTHERMAL synthesis, RAMAN spectroscopy, HETEROJUNCTIONS, REFLECTANCE spectroscopy, PHOTODEGRADATION, X-ray photoelectron spectroscopy, TRANSMISSION electron microscopy

Abstract

Impurity element doping is extensively taken as one of the most efficient strategies to regulate the electronic structure as well as the rate of photogenerated charge separation of photocatalysts. Herein, a one-pot hydrothermal synthesis process was exploited to obtain La-doped ZnIn2S4 microspheres, aiming at gaining insight into the role that doping ions played in the improvement of pollutant photodegradation. Systematical characterization means, comprising of X–ray photoelectron spectroscopy (XPS), ultraviolet–visible (UV–vis) diffuse reflection spectroscopy and Raman spectra, combination with high-resolution transmission electron microscopy (HRTEM), were employed to in depth reveal the concomitancy of La ions and ZnIn2S4 crystal lattice. The results showed that the La-doped ZnIn2S4 samples exhibited a slightly wider and stronger spectral absorption than pristine ZnIn2S4; and the specific surface area of doped ZnIn2S4 samples was a bit larger. The La-doped ZnIn2S4 electrodes showed improved photocurrent response, and the photocurrent density reached a maximum value at La content of 1.5 wt%. As expected, La-doped ZnIn2S4 samples exhibited a remarkable enhancement of photocatalytic behaviour toward the photodegradation of tetracycline hydrochloride (TCH) and methyl orange (MO). The prominently enhanced photoactivity of doped ZnIn2S4 samples was due to the synergistic effect of the elevated visible-light absorption ability and effective photogenerated charge carriers' separation. [ABSTRACT FROM AUTHOR]

Published

2020