Nanoscale insights in core-shell structure formation and property regulation of isotropic pyrolytic carbon materials

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作者 Caixiang Xiao Fei Zhao +3 位作者 Xu Yang Yuanxiao Zhao Qiang Song Qingliang Shen 《Journal of Materials Science & Technology》 2025年第19期263-272,共10页

Isotropic pyrolytic carbon(IPC)is renowned for its robust mechanical,biological,and tribological prop-erties.However,the current mechanisms for modulating IPC microstructure are insufficient to achieve higher performa... Isotropic pyrolytic carbon(IPC)is renowned for its robust mechanical,biological,and tribological prop-erties.However,the current mechanisms for modulating IPC microstructure are insufficient to achieve higher performance.Herein,this study provides nanoscale insights into the formation and property reg-ulation of the core-shell structure of the IPC,integrating simulation and experimental approaches.Large-scale reactive molecular dynamics simulations elucidate the microstructural evolution and assembly pro-cesses from precursors to nanoparticles and intertwined graphene networks.Simulation process charac-terization enable versatile adjustment of IPC microstructural features and one-step deposition of hybrid structures with disordered cores and ordered shell layers.Compared to Pyrolytic carbon(PyC)with lam-inated graphene arrangement,the prepared hybrid structure enables rapid assembly of large-size stan-dalone carbon components.Moreover,the hybrid architecture effectively improves the core-shell phase connection and significantly increases the interfacial shear stress within the intertwined graphene shell layers.Consequently,it greatly improves load transfer efficiency and enhances crack-bridging toughening effect.The endeavor to establish precise microstructure formation and property regulation in IPC materi-als promises to steer high-performance carbon materials toward distinct developmental trajectories. 展开更多

关键词 Isotropic pyrolytic carbon Mechanical property Molecular dynamics Chemical vapor deposition

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Effects of Preform and Pyrolytic Carbon Structure on Thermophysical Properties of 2D Carbon／Carbon Composites 被引量：8

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作者 罗瑞盈 程永宏 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2004年第2期112-118,共7页

Four kinds of carbon/carbon (C/C) composites, including the needled carbon fiber felt/the pyrolytic carbon (two different pyrolytic carbon microstructures), the chopped carbon fiber/the resin + pyrolytic carbon (PyrC)... Four kinds of carbon/carbon (C/C) composites, including the needled carbon fiber felt/the pyrolytic carbon (two different pyrolytic carbon microstructures), the chopped carbon fiber/the resin + pyrolytic carbon (PyrC), and the carbon cloth/PyrC, named as the composites 1#, 4#, 2#, and 3#, are prepared respectively. Effects of the preform and pyrolytic carbon structure on the thermophysical properties of 2D C/C composites are studied. The C/C composites possess low coefficient of thermal expansion (CTE). In a range of some temperatures, the negative expansion emerges in x-y direction for four C/C composites. From 0 to 900℃, the CTE is small and almost linear with the temperatures. The C/C composites have high thermal conductivities (TCs). As a function of temperature, TCs of the C/C composites are varied with the structures of preform and pyrc as well as the direction of heat transfer. In x-y and z direction, TCs differ greatly and that in x-y direction (25.6-174 W/m·K) is several times larger than that in z direction(3.5-50 W/m·K). 展开更多

关键词 carbon/carbon(C/C)composite pyrolytic carbon thermal expansion thermal conductivity

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Effect of Temperature on the Synthesis of SiC Coating on Carbon Fibers by the Reaction of SiO with the Deposited Pyrolytic Carbon Layer 被引量：5

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作者 Hejun Li Haibo Ouyang +3 位作者 Lehua Qi Yulei Zhang Zhengjia Li Jianfeng Wei 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2010年第3期211-216,共6页

The influence of reaction temperature on the preparation of SiC coating on carbon fibers by the reaction of silicon monoxide with the deposited pyrolytic carbon(PyC)layer has been discussed.With rising reaction temper... The influence of reaction temperature on the preparation of SiC coating on carbon fibers by the reaction of silicon monoxide with the deposited pyrolytic carbon(PyC)layer has been discussed.With rising reaction temperature,the thickness of SiC layer increases and the SiC grain is coarsening.The apparent activation energy for the synthesis of SiC layer is about 103.3 kJ/mol.The oxidation resistance of carbon fiber can be improved by the SiC/PyC layers significantly.The initial oxidation temperature of the SiC/PyC coated carbon fiber is about 300℃higher than that of the uncoated carbon fiber.The oxidation of the SiC/PyC coated carbon fiber is owing to the diffusion of oxygen through the cracks generated by the mismatch of thermal expansion. 展开更多

关键词 carbon fiber SiC coating pyrolytic carbon Oxidation behavior

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Methane pyrolysis in preparation of pyrolytic carbon:Thermodynamic and kinetic analysis by density functional theory 被引量：2

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作者 Chunxia HU He SHEN +1 位作者 Shouyang ZHANG Hejun LI 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2020年第3期1064-1073,共10页

The density functional theory has been successfully applied in analyzing pyrolytic carbon deposition by methane pyrolysis from the view of thermodynamics and kinetics based on a total number of 39 elementary reactions... The density functional theory has been successfully applied in analyzing pyrolytic carbon deposition by methane pyrolysis from the view of thermodynamics and kinetics based on a total number of 39 elementary reactions.M06-2X/def2-TZVP level was employed to optimize species structures and locate the transition states.The enthalpy changes and Gibbs free energy changes of all the reactions in the temperature range of 298.15–1800K were derived with optimized species.Results show that the reacting temperature should be above 1200 K based on the equilibrium constant analysis,which is consistent with the typical reaction temperature adopted in experiments.Potential energy surface profiles report that radical attacking reactions have lower energy barriers than those direct decomposition reactions,especially hydrogen radical attacking reactions.The energy barriers of the first steps,dehydrogenations of methane and ethylene,are 272.4 kJ·mol^(-1)and 288.9 kJ·mol^(-1)at 1200 K,which are very close to the experimental activation energy for methane pyrolysis.The most favorable decomposition reaction path is the path of hydrogen radical attacking reactions.The highest energy barrier of the path at 1200K is 185.7kJ·mol^(-1)presented by the C–H bond breaking in ethynyl attacked by hydrogen radical. 展开更多

关键词 Density functional theory KINETICS Methane pyrolysis pyrolytic carbon THERMODYNAMICS

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Microwave dielectric properties of Nextel-440 fiber fabrics with pyrolytic carbon coatings in the temperature range from room temperature to 700℃ 被引量：1

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作者 宋荟荟 周万城 +2 位作者 罗发 卿玉长 陈马林 《Chinese Physics B》 SCIE EI CAS CSCD 2015年第8期594-597,共4页

Pyrolytic carbon(PyC) coatings are deposited on the Nextel-440 fiber fabrics by chemical vapor deposition(CVD).The dielectric properties of the Nextel-440 fiber fabrics with PyC coatings(Nextel-440/PyC) are investigat... Pyrolytic carbon(PyC) coatings are deposited on the Nextel-440 fiber fabrics by chemical vapor deposition(CVD).The dielectric properties of the Nextel-440 fiber fabrics with PyC coatings(Nextel-440/PyC) are investigated in a temperature range from room temperature to 700℃ in X-band. Compared with the permittivity of the original Nextel-440 received,the complex permittivity of the Nextel-440/PyC(the real part εand the imaginary part ε), is significantly improved: εof the Nextel-440/PyC has a positive temperature coefficient, in contrast, εof the Nextel-440/PyC exhibits a negative temperature coefficient. Moreover, the reflection loss in units of d B is calculated. The results indicate that the microwave absorbing properties of the Nextel-440/PyC coatings is enhanced at 700℃ compared with that at lower temperatures. 展开更多

关键词 pyrolytic carbon coating chemical vapor deposition dielectric property

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Study on the Pyrolytic Carbon Generated by the Electric Heating CVD Method 被引量：1

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作者 徐先锋 欧阳甜 +1 位作者 ZENG Lingsheng CHAI Lingzhi 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2018年第2期409-413,共5页

A new method of fabricating C/C composite materials, namely electric heating CVD method, was used, which electrified the carbon fiber directly by using the conductivity of itself. Acetylene was used as the carbon sour... A new method of fabricating C/C composite materials, namely electric heating CVD method, was used, which electrified the carbon fiber directly by using the conductivity of itself. Acetylene was used as the carbon source with nitrogen as dilution gas, and the pyrolytic carbon started to deposit on the carbon fiber surface when the deposition temperature was reached. The morphology of pyrolytic carbon was characterized by SEM, and the surface properties of carbon fibers before and after CVD were characterized by Raman spectroscopy. The experimental results show that the electric heating method is a novel method to fabricate C/C composite materials, which can form a dense C/C composite material in a short time. The order degree and the average crystallite size of the carbon fiber surface were decreased after the experiment. 展开更多

关键词 C/C composite materials electric heating method chemical vapor deposition pyrolytic carbon

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Observations on Durability of a Pyrolytic Carbon Bileaflet Mechanical Heart Valve 被引量：1

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作者 LOU Hai-fang CHEN Ru-kun XU Si-wei DONG Ai-qiang 《Chinese Journal of Biomedical Engineering(English Edition)》 2010年第3期109-113,共5页

This study aims to observe the durability of a pyrolytic carbon bileaflet mechanical valve prosthesis. The mechanical valves prosthesis was tested in vitro by the durability test instrument of valve prosthesis. Then i... This study aims to observe the durability of a pyrolytic carbon bileaflet mechanical valve prosthesis. The mechanical valves prosthesis was tested in vitro by the durability test instrument of valve prosthesis. Then in vivo, the durability of the implanted valves was observed with animal experiments and elinieal application. In the impact test for 5 min and durability test of 380 million eyeles in vitro, there was no the phenomenon of flyer, perforation and fracture observed, as well as no wear or pit found on the surface of valve leaflets. The valve leaflets could normally be turned on or off. The weight of the valve was（1.0031 ± 0.0004） g for 23 mm and（1.6003 ± 0.0002） g for 27 mm. The hydrodynamies test demonstrated that the valve prosthesis had still exeellent hemodynamic performance after the durability test. The animal autopsy showed that the valve leaflets could normally be turned on or off, and no wear was found. By follow-up of 62 patients implanted the valves, all patients had long-terms survival, no complication caused by valve was found. The age of the longest survival was more than 10 years. This study demonstrates that the new meehanieal valve prosthesis have excellent durable performance. 展开更多

关键词 mechanical heart valve pyrolytic carbon DURABILITY HEMODYNAMICS

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An innovative wood derived carbon-carbon nanotubes-pyrolytic carbon composites with excellent electrical conductivity and thermal stability

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作者 Bihan Zhang Leilei Zhang +1 位作者 Zhongkai Wang Qian Gao 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2024年第8期22-28,共7页

The functionality of wood has evolved with time to adapt to the emerging needs of society.Carbonized wood-based composites have attracted tremendous interest in the fields of aerospace,military power,electric power,an... The functionality of wood has evolved with time to adapt to the emerging needs of society.Carbonized wood-based composites have attracted tremendous interest in the fields of aerospace,military power,electric power,and system electronic devices,especially at high temperatures.Nevertheless,their electrical conductivity and thermal stability characteristics are still far from satisfactory.Herein,an innova-tive wood-derived carbon-carbon nanotubes-pyrolytic carbon composites(WDC-CNTs-PyCs)is successfully fabricated by chemical vapor deposition and chemical vapor infiltration.The combination of wood-derived carbon(WDC),carbon nanotubes(CNTs),and pyrolytic carbon(PyC)has never been reported in any previous work.We have innovatively introduced PyC into the WDC by chemical vapor infiltration.CNTs promote the continuous deposition of PyC to form dense structures.WDC-CNTs-PyC demonstrates significant compressive strength(85.4 MPa)and excellent electrical conductivity(632 S cm^(-1)).The weight loss rate of WDC-CNTs-PyC is 6%after heating at 500℃ for 10 min in the air atmosphere.Furthermore,WDC-CNTs-PyC could resist oxyacetylene ablation above 2300℃ for 15 s.With excellent electrical conductivity,outstanding thermal stability,and mechanical properties,WDC-CNTs-PyC opens up a surprising strategy for efficiently fabricating various high-performance electronic device composites that could be used in high-temperature fields. 展开更多

关键词 Wood derived carbon carbon nanotubes pyrolytic carbon Electrical conductivity Thermal stability Compressive strength

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GROWTH CHARACTERSAND MODEL OF PYROLYTIC CARBON IN CHEMICAL VAPOR INFILTRATION PROCESS

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作者 侯向辉 李贺军 +2 位作者 张守阳 陈轶希 沈健 《Chinese Journal of Aeronautics》 SCIE EI CSCD 2000年第2期112-117,共6页

Chemical Vapor Infiltration (CVI) processes are the essential techniques for fabrication of high performance carbon carbon composites. Based on the polarized light and scanning electron analysis, the authors study th... Chemical Vapor Infiltration (CVI) processes are the essential techniques for fabrication of high performance carbon carbon composites. Based on the polarized light and scanning electron analysis, the authors study the micro morphology and texture characteristics of pyrolytic carbon deposited in CVI process, as well as the growth behavior of pyrolytic carbon. The research shows that Rough Laminar (RL) texture has the hierarchical and self similar structural features, which reflects the stage growth and self similar behavior during the growth course of pyrolytic carbon. According to the two growth features, a laminated growth model of pyrolytic carbon is proposed with the concept of Cone Growth Units (CGU). The laminated growth model can provide a fine description for the growth course of RL pyrolytic carbon. The model indicates that formation, developing and combination of local high order structures (such as CGU structures) are the essential factors for the growth of RL texture. Smooth Laminar (SL) texture and ISO carbon come into being with long range orderliness and isotropy structure respectively, which no local high orderliness intermediate involves in. 展开更多

关键词 pyrolytic carbon chemical vapor infiltration carbon carbon composites

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Recovery Method of Pyrolytic Carbon Surface after Exposure to Chlorine Trifluoride Gas

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作者 Masaya Hayashi Keisuke Kurashima +6 位作者 Hitoshi Habuka Akio Ishiguro Shigeaki Ishii Yoshiaki Daigo Hideki Ito Ichiro Mizushima Yoshinao Takahashi 《Advances in Chemical Engineering and Science》 2021年第1期65-76,共12页

An annealing process was developed for the practical recover of a purified py-rolytic carbon (PPyC) surface from damage, such as color change and peeling, due to fluorination during exposure to chlorine trifluoride ga... An annealing process was developed for the practical recover of a purified py-rolytic carbon (PPyC) surface from damage, such as color change and peeling, due to fluorination during exposure to chlorine trifluoride gas at high tempera-tures for the cleaning of a silicon carbide chemical vapor deposition reactor. The PPyC surface was annealed at 900</span><span style="color:#4F4F4F;font-family:Verdana;">&#176;</span><span style="font-family:Verdana;"></span><span style="font-family:Verdana;">C for 10 min in ambient nitrogen con-taining oxygen at the concentrations of 0.01% - 20%. The rainbow-like colored surface returned to the dark gray color of the original PPyC. Simultaneously, the thin peeled films disappeared. The Raman spectra showed that the PPyC surface chemical bonding returned to that of the original one. The oxygen concentration as low as 0.01% could recover the PPyC surface along with re-ducing the surface pit formation, when the combination of the exposure to chlorine trifluoride gas and the recovery was repeated. 展开更多

关键词 pyrolytic carbon Recovery Chlorine Trifluoride Fluorine Out-Diffusion ANNEALING

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Multi-scale growth mechanism of pyrolytic carbon from acetylene by chemical vapor deposition in spouted bed environment

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作者 Palash Kumar Mollick Debasis Sen +7 位作者 Mainak Roy Ramani Venugopalan Vishwanadh Bathula KVRavikanth Kinshuk Dasgupta Abhijit Ghosh Joti Nath Sharma Raghvendra Tewari 《Particuology》 2025年第9期207-216,共10页

The growth process of pyrolytic carbon(PyC)over zirconia microspheres was investigated at length scales starting from 10^(−10)m to 10^(−6)m using Transmission and Scanning Electron Microscopy,Raman spectroscopy,Small ... The growth process of pyrolytic carbon(PyC)over zirconia microspheres was investigated at length scales starting from 10^(−10)m to 10^(−6)m using Transmission and Scanning Electron Microscopy,Raman spectroscopy,Small Angle X-ray and Neutron Scattering.The extent of multiphase reactions which evolved through the formation of nano-crystalline carbon have been studied here right from the formation of the disc shaped crystallites of about 3–4 nm in diameter to fused lumps comprising of spherical stacks ca.of 100 nm diameter.The observations have been correlated with the deposition conditions,which affect reaction mechanisms.Based on these observations,a plausible mechanism for the deposition of PyC coatings at different length scales has been proposed with a novel concept of role of thermal boundary layer adjacent to the deposition surface.Pore volume measurement further validated our proposed growth mechanism at a length scale of 10^(−6)m.Analysis of residence time of the acetylene precursor within the solid bed of zirconia microspheres has shown to have great potential in exploring growth mechanism of multiphase reactions. 展开更多

关键词 pyrolytic carbon Chemical vapor deposition Deposition mechanism Functional materials Nano material

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Effect of pyrolytic carbon interphase on mechanical properties of mini T800-C/SiC composites 被引量：8

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作者 Donglin Zhao Tong Guo +2 位作者 Xiaomeng Fan Chao Chen Yue Ma 《Journal of Advanced Ceramics》 SCIE CAS CSCD 2021年第2期219-226,共8页

The effect of pyrolytic carbon(PyC) thickness on the tensile property of mini T800 carbon fiber reinforced SiC matrix composites(C/SiC) was studied. PyC interphase was prepared by chemical vapor infiltration(CVI) proc... The effect of pyrolytic carbon(PyC) thickness on the tensile property of mini T800 carbon fiber reinforced SiC matrix composites(C/SiC) was studied. PyC interphase was prepared by chemical vapor infiltration(CVI) process using C3H6–Ar as gas source, the PyC thickness was adjusted from 0 to 400 nm, and then the SiC matrix was prepared by CVI process using methyltrichlorosilane(MTS)–H2–Ar as precursor and gas source. The results showed that the tensile strength of mini T800-C/SiC increased first and then decreased with the increase of the PyC thickness. When the thickness of PyC was 100 nm, the average strength reached the maximum value of 393 ± 70 MPa. The Weibull modulus increased from 2.0 to 8.06 with the increase of PyC thickness, and the larger the Weibull modulus, the smaller the dispersion, which indicated that the regulation of PyC thickness was conducive to improve tensile properties. 展开更多

关键词 T800 carbon fiber C/SIC pyrolytic carbon(PyC)interphase tensile strength Weibull modulus

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Pyrolytic carbon derived from spent coffee grounds as anode for sodium-ion batteries 被引量：7

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作者 Guoliang Gao Ling-Zhi Cheong +1 位作者 Deyu Wang Cai Shen 《Carbon Resources Conversion》 2018年第1期104-108,共5页

This paper reported the facile preparation of pyrolytic carbon derived from spent coffee grounds and the evaluation of its electrochemical performance when used as anode in sodium-ion battery.X-ray diffraction analys... This paper reported the facile preparation of pyrolytic carbon derived from spent coffee grounds and the evaluation of its electrochemical performance when used as anode in sodium-ion battery.X-ray diffraction analysis,scanning electron microscope,Brunauer–Emmett–Teller were employed to characterize the structure of pyrolytic carbon.Electrochemical performances were tested by constant current charge–discharge,cyclic voltammetry and electrochemical impedance spectroscopy.Results showed that the pyrolytic carbon possess a porous structure(1–2 lm)and a specific surface area of 94.35 m2 g
1.When used as anodes in sodium-ion batteries,a reversible capacity of 154.2 mA h g
1 at a current density of 200 mA g
1 after 50 cycles was obtained.Several electrolytes were evaluated and their electrochemical performances were compared.The result indicated that this material has excellent storage capacity and good cycling stability.Our method provided a preparation of pyrolytic carbon from environmentally friendly resources. 展开更多

关键词 Spent coffee grounds Sodium ion battery ANODE pyrolytic carbon

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Determination of Anisotropic Factors of Pyrolytic Carbon by Electron Diffraction

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作者 ZHANG Jian-hui ZHA Xiao SUN Hai-bo 《Chinese Journal of Biomedical Engineering(English Edition)》 CAS 2021年第3期105-110,共6页

The preferred orientation of pyrolytic carbon coating is an important performance parameter for the safe use of artificial mechanical heart valve.In this paper,the selected area electron diffraction(SAED)analysis of p... The preferred orientation of pyrolytic carbon coating is an important performance parameter for the safe use of artificial mechanical heart valve.In this paper,the selected area electron diffraction(SAED)analysis of pyrolytic carbon coating samples of artificial heart valve was carried out by transmission electron microscopy(TEM),and the experimental method of characterizing the preferred orientation of pyrolytic carbon by electron diffraction spectrum,namely bacon anisotropy factor(BAF),was described,and the orientation angle and BAF corresponding to the electron diffraction spectrum were measured.The results show that the BAF value can directly reflect the anisotropy of pyrolytic carbon in the selected area.The BAF value range is from 1 to infinity,and the higher the preferred orientation is,the greater the value is.The BAF value decreases exponentially with the increase of orientation angle.When the pyrolytic carbon tends to be isotropic,the orientation angle tends to 180 and the BAF value tends to 1. 展开更多

关键词 artificial heart valve pyrolytic carbon coating preferred orientation orientation angle bacon anisotropy factor

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Silicon-alloyed Isotropic Pyrolytic Carbon Prepared by Steady-state Fluidized Bed Chemical Vapor Deposition

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作者 ZHANG Jian-hui LIU Gang ZHENG Yan-zhen 《Chinese Journal of Biomedical Engineering(English Edition)》 CAS 2021年第2期58-68,共11页

Silicon-alloyed isotropic pyrolytic carbon(Si-IPyC)was prepared by steady-state fluidized bed chemical vapor deposition(SFBCVD).The effects of deposition temperature and propane concentration on the microstructure and... Silicon-alloyed isotropic pyrolytic carbon(Si-IPyC)was prepared by steady-state fluidized bed chemical vapor deposition(SFBCVD).The effects of deposition temperature and propane concentration on the microstructure and deposition process of Si-IPyC were investigated using X-ray diffraction(XRD),X-ray energy dispersive spectrometer(EDS)and scanning electron microscope(SEM).The results show that the Si-IPyC with different silicon content is composed of both spherical granular and laminar structures,and silicon element is uniformly dispersed in pyrolytic carbon in the form of β-SiC.The deposition temperature and propane concentration have a great influence on the microstructure of Si-IPyC,with the increase of deposition temperature or propane concentration,the laminar structure in Si-IPy C decreases gradually,spherical granular morphology becomes increasingly obvious and the density decreases with the deposition model changing from surficial growth mechanism to gaseous nucleation mechanism.For getting a faster average coating rate,deposition temperature and propane concentration should not be too high. 展开更多

关键词 silicon-alloyed isotropic pyrolytic carbon processing parameter MICROSTRUCTURE deposition model

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Investigation of reinforcement of the modified carbon black from wasted tires by nuclear magnetic resonance 被引量：10

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作者 ZHOU Jie YANG Yong-rong +1 位作者 REN Xiao-hong STAPF Siegfried 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2006年第8期1440-1446,共7页

Pyrolysis has the potential of transforming waste into recyclable products. Pyrolytic carbon black (PCB) is one of the most important products from the pyrolysis of used tires. Techniques for surface modifications of ... Pyrolysis has the potential of transforming waste into recyclable products. Pyrolytic carbon black (PCB) is one of the most important products from the pyrolysis of used tires. Techniques for surface modifications of PCB have been developed. One of the most significant applications for modified PCB is to reinforce the rubber matrix to obtain high added values. The transverse relaxation and the chain dynamics of vulcanized rubber networks with PCB and modified PCB were studied and compared with those of the commercial carbon blacks using selective 1H transverse relaxation (T2) experiments and dipolar correlation effect (DCE) experiments on the stimulated echo. Demineralization and coupling agent modification not only intensified the interactions between the modified PCB and the neighboring polyisoprene chains, but also increased the chemical cross-link density of the vulcanized rubber with modified PCB. The mechanical testing of the rubbers with different kinds of carbon blacks showed that the maximum strain of the rubber with modified PCB was improved greatly. The mechanical testing results confirmed the conclusion obtained by nuclear magnetic resonance (NMR). PCB modified by the demineralization and NDZ-105 titanate coupling agent could be used to replace the commercial semi-reinforcing carbon black. 展开更多

关键词 pyrolytic carbon black （PCB） Nuclear magnetic resonance （NMR） RELAXATION Dipolar correlation effect （DCE） Reinforcement

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Synthesis and Growth Mechanism of Carbon Filaments by Chemical Vapor Deposition without Catalyst

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作者 Shuhe Liu Feng Li Shuo Bai 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2009年第2期259-263,共5页

Carbon filaments with diameter from several to hundreds deposition of methane without catalyst. The morphology micrometers were synthesized by chemical vapor microstructure and mechanical properties of the carbon fila... Carbon filaments with diameter from several to hundreds deposition of methane without catalyst. The morphology micrometers were synthesized by chemical vapor microstructure and mechanical properties of the carbon filament were investigated by scanning electronic microscopy, optical microscopy, X-ray diffraction and mechanical testing. The results show that the carbon filament is inverted cone shape and grows up along the gas flow direction. The stem of it is formed of annular carbon layers arranged in a tree ring structure while the head is made up of concentrical layers. The tensile strength of the carbon filament is increased after graphitization for the restructuring and growing large of graphene. The growth mechanism of carbon filament was proposed according to the results of two series of experiments with different deposition time and intermittent deposition cycles. 展开更多

关键词 carbon filaments pyrolytic carbon SYNTHESIS Chemical vapor deposition Mechanical property

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Carbonization of Ni-doped Phenol Resin Under Various Conditions

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作者 WEI Guoping ZHU Boquan +1 位作者 LI Xiangcheng MA Zheng 《China's Refractories》 CAS 2017年第2期25-30,共6页

Ni-doped phenol resin was prepared with 1∶100 mass ratio of Ni（ NO_3）_2·6H_2O to thermosetting phenol resin to optimize the structure and properties of pyrolytic carbon derived from phenol resin and increase i... Ni-doped phenol resin was prepared with 1∶100 mass ratio of Ni（ NO_3）_2·6H_2O to thermosetting phenol resin to optimize the structure and properties of pyrolytic carbon derived from phenol resin and increase its carbon yield. The specimens were cured at 200 ℃ and carbonized under different atmospheres（ carbon-embedded atmosphere and Ar atmosphere） and at different temperatures（ 600,800,1000 and 1200 ℃） for3 h,respectively. The carbon yield was measured. Thermal decomposition characteristics of Ni-doped phenol resin,and the oxidation resistance,phase composition and microstructure of pyrolytic carbon were characterized by differential scanning calorimetry,X-ray diffraction,energy dispersive spectroscopy, scanning electron microscopy and transmission electron microscopy. The results show that the carbon yield of Ni-doped phenol resin carbonized at800 or 1 000 ℃ is increased significantly,compared with that without any dopants. The graphitization degree of pyrolytic carbon structure derived from Ni-doped phenol resin increases with the increase of carbonization temperature. The massive multi-wall carbon nanotubes of 50-100 nm in diameter and of micrometre scale in length are generated at 1000 ℃. Compared with the carbonembedded atmosphere,carbon nanotubes can be more easily generated in Ar atmosphere,resulting in higher carbon yield and degree of crystallinity of the pyrolyticcarbon derived from Ni-doped phenol resin. The oxidation resistance of the pyrolytic carbon derived from Ni-doped phenol resin at 1200 ℃ is improved significantly and its highest oxidation temperature is increased by about 84℃,compared with that from Ni free phenol resin. 展开更多

关键词 phenol resin nickel-doping carboniza-tion pyrolytic carbon carbon nanotubes oxidation re-sistance

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Adsorption Characteristics of Activated Carbon Derived from Scrap Tires for Malachite Green:Influence of Small Organics 被引量：2

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作者 李丽 刘玉静 +2 位作者 王佳平 刘双喜 朱坦 《Transactions of Tianjin University》 EI CAS 2013年第6期425-429,共5页

The influence of small organics on the adsorption characteristics of activated carbon produced from industrial pyrolytic tire char(APTC)for malachite green(MG) was investigated by a batch method. Phenol was chosen as ... The influence of small organics on the adsorption characteristics of activated carbon produced from industrial pyrolytic tire char(APTC)for malachite green(MG) was investigated by a batch method. Phenol was chosen as the representative of small organics. The effects of phenol on adsorption equilibrium, kinetics and thermodynamics were studied systematically. The results indicate that APTC is a potential adsorbent for MG. The presence of phenol decreases the adsorption capacity of APTC for MG, but improves the rate of adsorption, while the adsorption characteristics, such as equilibrium, kinetics and thermodynamics are not affected by phenol. The adsorption equilibrium data follow Langmuir isotherm and the kinetic data are well described by the pseudo-second-order kinetic model. The adsorption process follows intra-particle diffusion model and the adsorption rate is determined by more than one process. Thermodynamic study shows that the adsorption is an endothermic and spontaneous physisorption process. 展开更多

关键词 activated carbon scrap tire pyrolytic tire char adsorption malachite green phenol

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A 3D pore-nest structured silicon-carbon composite as an anode material for high performance lithium-ion batteries

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作者 Yankai Li Zhi Long +4 位作者 Pengyuan Xu Yang Sun Kai Song Xiaokang Zhang Shuhua Ma 《Inorganic Chemistry Frontiers》 2017年第12期1996-2004,共9页

A novel silicon-carbon composite with a 3D pore-nest structure denoted as Si@SiO_(x)/CNTs@C was prepared and studied.The results showed that agglomeration of nano-silicon particles is effectively inhibited by the addi... A novel silicon-carbon composite with a 3D pore-nest structure denoted as Si@SiO_(x)/CNTs@C was prepared and studied.The results showed that agglomeration of nano-silicon particles is effectively inhibited by the addition of a surfactant;meanwhile,surfactant pyrolytic carbon(SPC)and a relatively dense SiO_(x) mechanical binding layer on the surface of Si magnificently restrain the volume expansion during the lithiation process and are conducive to the formation of a stable SEI film.In addition,a 3D electron pathway was constituted by CNTs,graphite and SPC on the surface of Si to enhance the conductivity.The results showed that the capacity of the Si@SiO_(x)/CNTs@C composite anode can be maintained at above 1740 mA h g^(-1) at a current density of 0.42 A g^(-1) after 700 cycles without capacity loss compared to the initial charge capacity,which indicated the excellent cycle performance of the composite material.Furthermore,a rule of thumb has been perceived by means of CV,cell charging/discharging measurements and their differential capacity analyses,which is characteristic of an electrode made of silicon as an active material.The finding contributes to the in-depth comprehension and general elucidation of the degradation mechanism of Si-based anode materials. 展开更多

关键词 pyrolytic carbon spc surfactant pyrolytic carbon lithiation process volume expansion d electron p sei filmin mechanical binding layer

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