Your search keyword '"Guang-Jie Shao"' showing total 20 results

1. Nitrogen-doped 3D web-like interconnected porous carbon prepared by a simple method for supercapacitors

Author

Li Su, Shuai Guo Hao, Xiu Juan Qin, Li Na Kong, Guang Jie Shao, and Wang Yang

Subjects

Supercapacitor, Materials science, Aqueous solution, General Chemical Engineering, General Engineering, General Physics and Astronomy, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Nitrogen, Capacitance, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Specific surface area, General Materials Science, 0210 nano-technology, Melamine, Carbon, BET theory

Abstract

Carbon-based materials have always been a hot issue of research as important electrode materials for supercapacitors. Their capacitance characteristics depend on specific surface area, pore size distribution, and chemical composition etc. In this report, we utilize sodium citrate as a carbon source and melamine and urea as nitrogen sources. We prepared two types of nitrogen-doped hierarchical porous carbons using a simple and environmentally friendly method for supercapacitors in an aqueous solution containing 6 mol/L KOH. The results show, when melamine was used as a nitrogen source, benefit from a larger BET surface area of 819.5463 m2/g, and higher nitrogen content 4.14% show a higher specific capacitance characteristics 383F g−1 at 0.3A g−1 and high capacity retention of 99.6% after 10,000 cycles compared with the product of urea as a nitrogen source.

Published

2019

2. Influence of solvents on deposition mechanism of Al-doped ZnO films synthesized by cold wall aerosol-assisted chemical vapor deposition

Author

Lin Zhao, N. Wang, Xiu Juan Qin, and Guang Jie Shao

Subjects

Materials science, Hybrid physical-chemical vapor deposition, Ion plating, Inorganic chemistry, Metals and Alloys, Surfaces and Interfaces, Chemical vapor deposition, Combustion chemical vapor deposition, Electron beam physical vapor deposition, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Pulsed laser deposition, Deposition (aerosol physics), Chemical engineering, Materials Chemistry, Thin film

Abstract

Using methanol, ethanol, 2-methoxyethanol and isopropanol as solvents in the precursor solutions, respectively, Al-doped ZnO films were synthesized on glass substrates by cold wall aerosol-assisted chemical vapor deposition. The deposition mechanism and the influence of solvents on deposition were discussed, finding that the degree of (0 0 2) orientation growth of the film was significantly influenced by the viscosity of precursor solutions. The deposition velocity decreased as the viscosity of precursor solution increased. Grains tended to uniformly distributed over the substrates for the samples deposited from high-viscosity solutions, while low-viscosity solutions resulted in grain agglomeration. Some droplets generated from 2-methoxyethanol system coagulated due to the greater surface tension. Grains that differ significantly in size were deposited on the film.

Published

2013

3. The Microstructure and Elements Distribution of High-Chiromium Hypereatectoid Steel by High-Temperature Homogenization

Author

Guang Jie Shao, Jin Man, and Yitao Yang

Subjects

Materials science, Scanning electron microscope, Metallurgy, technology, industry, and agriculture, General Engineering, chemistry.chemical_element, Atmospheric temperature range, Microstructure, Homogenization (chemistry), law.invention, Chromium, chemistry, Optical microscope, law, Ingot, Liquation

Abstract

The temperature range of high-temperature homogenization was determined by phase diagram calculation and the critical overburning temperature of chromium hypereatectoid steel was measured by DSC. The Comparison of microstructures and element segregation before and after homogenized treatment were investigated for chromium steel ingot by means of optical microscope, scanning electron microscopy and EDS. The results show that the liquation carbides and composition segregation are improved after the chromium steel was treated by high-temperature homogenization. According to the results of EDS analysis and segregation ratio calculation for the samples homogenized at different temperature, the optimum homogenization process for Cr steel is 1210°C for 6h.

Published

2013

4. A novel amperometric hydrogen sensor based on nano-structured ZnO sensing electrode and CaZr0.9In0.1O3−δ electrolyte

Author

Lei Dai, Yuehua Li, Ling Wang, and Guang-jie Shao

Subjects

Materials science, Hydrogen, Bilayer, Metals and Alloys, Analytical chemistry, chemistry.chemical_element, Sintering, Electrolyte, Condensed Matter Physics, Microstructure, Hydrogen sensor, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Electrode, Materials Chemistry, Electrical and Electronic Engineering, Instrumentation, Proton conductor

Abstract

An amperometric hydrogen sensor using nano-structured ZnO as sensing electrode (SE) and CaZr 0.9 In 0.1 O 3− δ a proton conductor as electrolyte was fabricated. A bilayer CaZr 0.9 In 0.1 O 3− δ electrolyte including both a dense layer and a porous layer was prepared by conventional solid state reaction method. During the preparation of electrolyte, sintering aid (ZnO) was introduced into CaZr 0.9 In 0.1 O 3− δ for promoting its sintering. The ZnO-SE particles were in situ prepared in the porous CaZr 0.9 In 0.1 O 3− δ backbone by impregnating method. The composition and microstructure of the sensor were characterized by XRD and SEM, respectively. The properties of the sensor for monitoring hydrogen were studied. The results showed that a dense CaZr 0.9 In 0.1 O 3− δ electrolyte with good stability was prepared at 1350 °C. The ZnO-SE particles with diameters of 200 nm were homogeneously dispersed in the porous CaZr 0.9 In 0.1 O 3− δ backbone. The response current of the sensor was almost linear to H 2 concentration in the range of 50–500 ppm. With the temperature increasing, the sensitivity increased and reached 179.87 nA/ppm at 700 °C. The sensor showed fast response/recovery, good reproducibility, and stability.

Published

2012

5. Influence of Carbon Sources on the Electrochemical Performance of LiFePO4/C Composite Cathode Material

Author

Xiu Juan Qin, Hong Lian Wu, and Guang Jie Shao

Subjects

Materials science, Morphology (linguistics), General Engineering, Analytical chemistry, chemistry.chemical_element, Electrochemistry, chemistry.chemical_compound, Chemical engineering, chemistry, Lifepo4 c, Carbothermic reaction, Carbon source, Composite cathode, Citric acid, Carbon

Abstract

LiFePO4/C cathode material with different carbon sources was synthesized by using a two-step carbothermal reduction method. The structure and electrochemical properties of the samples were characterized by XRD, SEM and galvano-static charge-discharge method. The effect of different carbon sources on the structure, morphology and its electrochemical properties of the LiFePO4/C composite materials were investigated. The results showed that the properties of the samples depended on carbon sources, significantly. The sample synthesized by citric acid as carbon source had the best electrochemical performance. The reason of performance difference of the LiFePO4/C composite materials caused by carbon source was discussed.

Published

2011

6. The Study on Precipitation Characteristics in 6082 Aluminum Alloy with Cu Addition

Author

Man Jin, Chao Feng Xia, and Guang Jie Shao

Subjects

Materials science, chemistry, Aluminium, Precipitation (chemistry), Alloy, Metallurgy, General Engineering, engineering, Analytical chemistry, chemistry.chemical_element, engineering.material, Dissolution

Abstract

The effects of Cu addition on precipitation characteristics in 6082 Al-Mg-Si alloy was investigated by means of DSC、TEM and 3DAP. It was found that addition of Cu has distinct effect on the precipitation and dissolution process of precipitates during heating by DSC measurement, the presence of Cu promotes the formation of GP zone or atomic clusters and accelerates the precipitation of β¢¢ . The precipitation sequence in the 6082 alloy with 0.6%Cu addition is as follows:SSSSatomic clusters/GP-zonesβ¢¢ + Q¢ Q¢.

Published

2011

7. Effect of Si Content on Microstructure and Wear Resistance of Cold Roll Steel with 5%Cr

Author

Ying Mai Wu, Yi Tao Yang, and Guang Jie Shao

Subjects

Wear resistance, Materials science, Melting furnace, Martensite, Metallurgy, General Engineering, Vacuum arc, Microstructure, Hot rolled, Carbide

Abstract

The effect of Si content on structure and wear resistance of cold roll steel with 5%Cr by using vacuum arc melting furnace had been studied in this paper. Results showed that with increasing Si content martensite got coarsening and the number and content of primary carbide increased; The type of primary carbide was M7C3 and Si mainly dissolved into martensite by XRD analysis; The wear resistance was effectively improved while Si content increased. The appropriate Si content in cold roll steel with 5%Cr was 1.5%~2％.

Published

2011

8. The Influence of Thermomechanical Treatment on the Microstructure and Properties of a Wrought Al-Mg-Si Alloy

Author

Man Jin, Chao Feng Xia, Li Li Yang, Jin Man, and Guang Jie Shao

Subjects

Materials science, Precipitation (chemistry), Alloy, Metallurgy, technology, industry, and agriculture, General Engineering, engineering.material, Deformation (meteorology), equipment and supplies, Microstructure, Average size, Electrical resistivity and conductivity, Ageing, Ultimate tensile strength, engineering

Abstract

To investigate the effects of thermomechanical treatments (TMT) on the microstructure and properties of Al-Mg-Si alloy, the cold deformation on the ageing precipitation of a solution-treated Al-Mg-Si alloy was studied. The results shows that the time of reaching the peak hardness is shortened with the increasing deformation and an obvious increasing in the peak hardness and tensile strength are occured with higher amount of deformations. The microstructures of peak hardness reveals that the average size of the precipitates becomes smaller in size and greater in number in the alloy with 50% deformations. The study is also carried out to investigate the changes in resistivity of alloys during the ageing time in the alloy with and without 50% deformation. It was found that there are rapidly increasing in resistivity followed by decreasing with the onset of ageing time in both cases. However, the extent of increasing and decreasing in resistivity is much stronger in the alloy with 50% deformation. These results were discussed according to the effects of cold deformation on the dislocations and precipitates in the Al-Mg-Si alloy.

Published

2011

9. Reverse design of microstructure and application effectiveness for semi-solid processing of aluminum alloy

Author

Yi-tao Yang, Sun Baoliang, Xiao-chun Jin, Heng-hua Zhang, Guang-jie Shao, and Xiang-lin Yin

Subjects

Materials science, Alloy, Metallurgy, Metals and Alloys, chemistry.chemical_element, engineering.material, Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, Microstructure, Hardness, Grain size, chemistry, Aluminium, Ultimate tensile strength, Materials Chemistry, engineering, Semi solid, Eutectic system

Abstract

The hypoeutectic Al-Si alloy billet with non-dendrite was reheated to meet the needs of the semi-solid thixoforming microstructure by four kinds of reheating power, achieving the same final temperature of 851 K. Subsequently, under the same condition of thixoforming, the microstructure, surface hardness and tensile properties were observed. Afterwards, quantitative analysis was made for the microstructures of the reheated semi-solid of billet and the thixoforming parts. The results show that when the induction reheating power is 90 kW, the average grain size of the semi-solid billet is the minimum, the microstructures of the thixoforming samples also are the finest, and the mechanical properties of the relevant thixoforming samples are the best. Furthermore, after studying on the relationship between the microstructures of the semi-solid billet of aluminum alloy and the mechanical properties of the thixoforming samples, the reverse design of microstructure is primarily achieved. Finally, the effectiveness of the reverse design for semi-solid microstructure is confirmed by an actual automobile part with complex shape.

Published

2010

10. Investigation of the Relationships between Billet Reheating and Semi-Solid Die-Casting

Author

Yu Peng Shao, Guang Jie Shao, Yitao Yang, and Xiang Lin Yin

Subjects

Materials science, Alloy, Metallurgy, General Engineering, chemistry.chemical_element, engineering.material, Microstructure, Hardness, Die casting, Grain size, chemistry, Aluminium, Ultimate tensile strength, engineering, Semi solid

Abstract

The non-dendritic of A356 aluminum alloy billet was reheated to meet the requirements of the semi-solid microstructure by three different kinds of power, achieving the same final temperature of 863K. Subsequently, under the same conditions of die-casting (thixoforming), the microstructure was observed, surface hardness and tensile properties were measured. Afterwards, quantitative analysis was made for the microstructure of the reheated semi-solid of billet and the thixoforming parts. The results showed that the larger induction reheating power of the billet, the smaller the grain size of its microstructure and the higher surface hardness and the better mechanical properties of its thixoforming sample. Finally, through studying on the relationship between the microstructure of the semi-solid billet of A356 aluminum alloy and the mechanical properties of the thixoforming sample, we primarily achieved the reverse design of microstructure.

Published

2010

11. Prediction and Prevention of Overburning Structure during Hot Processing of Chromium Forged Steel

Author

Yitao Yang, Shun Jie Li, Kun Peng, and Guang Jie Shao

Subjects

Chromium, Materials science, Volume (thermodynamics), chemistry, Metallurgy, General Engineering, chemistry.chemical_element, Carbon, Forging

Abstract

The critical overburning temperature of chromium forged steel was experimented and discussed by DSC method and metallographic analysis of heat-treatment samples. Temperature increase during forging process and effects of some alloying elements on overburning temperature were simulated respectively by using Deform-3D and Thermo-calc software. The results of linear regression analysis showed that increased temperature has a prop relationship between volume and rate of forging process. Besides, a monotonic decreasing relationship is found between the content of alloying elements with overburning temperature in the scope of the composition of chromium forged steel. It is found that carbon has the major effect on the overburning temperature.

Published

2010

12. Simulation of Void Defect Evolvement during the Forging of Steel Ingot

Author

Yitao Yang, Ke Jia Liu, Guang Jie Shao, and Kun Chen

Subjects

Void (astronomy), Materials science, Effective strain, Metallurgy, General Engineering, Ingot, Forging, Stress concentration

Abstract

Simulation method of void defect evolvement during the forging of steel ingot was determined by comparing simulated and experimental results of void closure in the cylinder specimens during forging. Calculation results of long and short void defect evolvement during forging indicated that effective strain required for void closure was induced by the integration of stress. The closure of tetrahedral void is the most difficult with the maximal values of critical reduction on void closure during forging, on the basis of which, theory basis is provided for making forging process.

Published

2010

13. Semi-solid thixo casting structure of aluminum alloy and relevant assistant analysis with the help of computer simulation

Author

Heng-hua Zhang, Yi-tao Yang, Meng Chen, Jian-fu Wang, and Guang-jie Shao

Subjects

Materials science, Morphology (linguistics), Alloy, Metallurgy, chemistry.chemical_element, engineering.material, Microstructure, medicine.disease_cause, Casting, Grain size, chemistry, Aluminium, Mold, engineering, medicine, General Materials Science, Semi solid

Abstract

The relationship between structure morphology of semi-solid aluminum alloy die-casting sample and filling condition was studied. By systematical structure analysis and computer simulation of the filling process, the quantitative relationship between microscopic morphology (such as solid fraction, grain size and shape) and formation state was studied. The results showed that the billet microstructure must have fine and round grains for the die-casting of complex shapes. It is necessary to optimize injection speeds to escape the non-uniform distribution of the solid fraction in complex and changeable mold cavity.

Published

2008

14. The Microstructure Evolvement and Simulation Analysis during Semi-Solid Processing of Aluminum Alloy

Author

Guang Jie Shao, Heng Hua Zhang, Yi-tao Yang, and Jian Fu Wang

Subjects

Materials science, Alloy, Metallurgy, chemistry.chemical_element, Forming processes, engineering.material, Condensed Matter Physics, Microstructure, Die casting, Atomic and Molecular Physics, and Optics, chemistry, Flow velocity, Aluminium, Phase (matter), Slurry, engineering, General Materials Science

Abstract

To enhance the comprehension on the internal rule of microstructure evolvement and quality-controlled relativity, the microstructure during the induction reheating of billets and die casting of parts was systematically investigated. According to general structure observation and aided analysis of some computer simulations, the quantitative relationships between microscopic morphology (including solid fraction and grain shape) and formation state was minutely discussed. The experimental results showed that liquid and solid phase in semi-solid slurry had different filling tendency, fluid velocity of liquid phase in the area of high filling speed was relative quick and easy to flow into far area and corner. Solid particles far from gate possessed fine and round grain. Moreover, the structure configuration of original billets markedly affected forming process; billets with fine and round grain were required for the die-castings of complex shape and thin thickness. In the case of the big change in shape and thickness of die-castings, the design of gating system and the control of plunger speed should be so properly carried out as to avoid unequal distribution of solid and liquid phase in die-casting part as soon as possible.

Published

2008

15. Preparation of nanometer oxides La1−xSrxMnO3 by absolute alcohol as solvent

Author

Guang-jie Shao, Guang-zhong Xing, Jie Hu, Peng Guo, and Xiu-juan Qin

Subjects

Materials science, Thermal decomposition, Inorganic chemistry, Metals and Alloys, Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, Mole fraction, Catalysis, Solvent, Metal, chemistry.chemical_compound, chemistry, visual_art, Materials Chemistry, visual_art.visual_art_medium, Nanometre, Carboxylate, Citric acid

Abstract

Nanometer oxides La 1− x Sr x MnO 3 were synthesized by absolute alcohol as solvent. The desired metal cations were chelated in a solution using citric acid as the chelating agents. In order to get the optimum preparation condition for La 1− x Sr x MnO 3 , the pH of primal commix solution, the molar fraction of citric acid and baking temperature of predecessor block were researched by orthogonal test design method with different x . The thermal decomposition of the metal carboxylate precursor gels was studied by TG/DTA and the products derived from calcinations of the gels were characterized by XRD and TEM. The polarization curves were acquired on an electrochemical work station (LK98) and the discharge curves were acquired on a testing instrument of batteries (DC-5) with a constant current discharge under 120 mA/cm 2 . The results reveal that the nanometer oxides can be achieved by absolute alcohol as solvent and it has better catalytic activity.

Published

2008

16. Study of Cu Addition on Precipitation Behaviors and Mechanical Properties in AA6082 Al-Mg-Si Alloy

Author

Guang Jie Shao, Man Jin, and Jing Li

Subjects

6111 aluminium alloy, Materials science, Precipitation (chemistry), Mechanical Engineering, Metallurgy, Alloy, engineering.material, Condensed Matter Physics, Microstructure, Isothermal process, Precipitation hardening, Mechanics of Materials, engineering, General Materials Science, Thermal stability, Softening

Abstract

The precipitation behaviors and microstructures of nano-precipitates in AA6082 Al-Mg-Si alloy with and without Cu additions during heat treatment process were studied using hardness measurements, TEM, mechanical tests and 3DAP. Meanwhile, the softening process of 6082 alloys with Cu and without Cu, isothermally conditioned at 250°C, has also been investigated. It was found that the rate of age hardening, mechanical properties and thermal stability are higher for the Cu-containing alloy. The TEM and 3DAP observations showed that Q’ precipitates were existed after aged at 170°C for 8h in the alloy with Cu addition. Comparing the hardness, mechanical properties and thermal stability curves, it was concluded that the Q’ precipitates play a major role in improving the age hardening kinetics and properties of 6082 alloy with Cu addition.

Published

2007

17. Spark Plasma Sintering and Hot Pressing Sintering of Nanocrystalline WC-10CO-0.8VC

Author

Dave Richard Siddle, Guang Jie Shao, Yi Xiong Liu, and Li Hui Zhu

Subjects

Materials science, Mechanics of Materials, Mechanical Engineering, Metallurgy, Spark plasma sintering, Relative density, Sintering, General Materials Science, Condensed Matter Physics, Hot pressing, Microstructure, Nanocrystalline material

Abstract

WC-10Co-0.8VC nanocrystalline powders were sintered by spark plasma sintering (SPS) and hot pressing sintering (HPS), and the microstructure and properties were compared. Results show that, sintered at 1300°C, the sample prepared by SPS for only 3 minutes has higher density than that prepared by HPS for 60 minutes. SEM and SPM observation shows SPS at 1200°C has a more uniform and finer microstructure, and most of the WC grains are smaller than 100nm. It has a relative density of 95.1%, HV30 of 1887, and KIC of 11.5 MPam1/2. If a suitable sintering parameter is chosen, SPS is a promising consolidation technique to prepare nanocrystalline WC-10Co-0.8VC with improved properties.

Published

2007

18. Influence of Morphology on the Rheological Behavior of Semi-Solid A356 Aluminum Alloy

Author

Xian Nian Zhang, Luo Ping Xu, Heng Hua Zhang, Yi-tao Yang, Bao Liang Sun, and Guang Jie Shao

Subjects

Shearing (physics), Thixotropy, Materials science, Steady state, Alloy, Metallurgy, Viscometer, engineering.material, Apparent viscosity, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Rheology, visual_art, engineering, Aluminium alloy, visual_art.visual_art_medium, General Materials Science, Composite material

Abstract

The morphology of semi-solid alloy is one of the key influence factors on the rheological behavior of slurry during die filling and the mechanical properties of formed parts. However, it is difficult to study such effect due to hard controlling of morphology in semi-solid state. In this paper, a self-developed Searle-type viscometer was used to determine the rheological behavior of A356 aluminum alloy in different morphology, which was refined with the salts mixture of K2TiF6 and KBF4. The results indicated that the flow behavior of refined A356 alloy in the semi-solid state possesses obviously thixotropic behavior under isothermal shearing condition with less time to reach steady state and lower steady apparent viscosity as compared to that of the A356 alloy. During continuous cooling at a constant shearing rate, the apparent viscosity of refined A356 slurry in the same solid fraction decreased with the content of Ti. It is shown from quantitative image analysis that the primary α-Al grain in the refined alloy evolves from dendrites to rosettes or sphericitys, and then tends to be rounder and finer in higher Ti content. The mechanism of the influence of morphology on rheological behavior was also discussed in this paper.

Published

2006

19. Application of Computer Simulation in Developing Automotive Parts of Al Alloy by Using Semi-Solid Die Cast Process

Author

Yi-tao Yang, Guang Jie Shao, and Heng Hua Zhang

Subjects

Materials science, business.product_category, business.industry, Metallurgy, Alloy, Process (computing), Automotive industry, Mechanical engineering, engineering.material, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Visualization, visual_art, Aluminium alloy, visual_art.visual_art_medium, engineering, Die (manufacturing), General Materials Science, business, Realization (systems), Semi solid

Abstract

To aid the optimizing design of filling system, computer simulation technique is introduced to predict injection-forming process and to protect defects during trial manufacture of automotive parts by using semi-solid die cast process. By comparing formed appearance of parts in experiments and that in simulations, and observing the relationship between internal defects inspected by X-ray and flow field obtained in simulation, it is indicated that there are quite good agreements between simulation and experiment, right predictions for cast defects resulting from filling process can be made and improving direction is proposed. The realization of numerical visualization for filling process of high speed during semi-solid die cast process will play an important role in optimizing technology plan and process.

Published

2006

20. Effects of high magnetic field on thermodynamic properties of pure Fe and Cu

Author

Naqiong Zhu, Jing-Tai Zhao, Guang-jie Shao, Yanlin He, Lin Li, and Mei-Bo Tang

Subjects

Paramagnetism, Magnetization, Magnetic anisotropy, Curie–Weiss law, Materials science, Magnetic domain, Magnetic shape-memory alloy, Thermodynamics, General Materials Science, Magnetic susceptibility, Saturation (magnetic)

Abstract

By the use of PPMS (Physics Property Measurement System), specific heat values of pure Cu at 2–300 K were determined under the magnetic field of 0, 3, 6 and 9 T, respectively. Magnetization curves of pure Fe under the magnetic field of 0–9 Twere obtained at different temperature ranging from 5 to 300 K. Analyses of the experimental results indicate that below 300 K, magnetic fields have no effects on the specific heat values of diamagnetic Cu and very little effects on those of ferromagnetic Fe.

Published

2010