Reaction forming of silicon carbide ceramic using phenolic resin derived porous carbon preform

Fully dense and net-shaped silicon carbide monoliths were produced by liquid silicon infiltration of carbon preforms with engineered bulk density, median pore diameter, and chemical reactivity derived from carbonization of crystalline cellulose and phenolic resin blends. The ideal carbon bulk density and minimum median pore diameter for successful formation of fully dense silicon carbide by liquid silicon infiltration are 0.964 g cm−3 and approximately 1 μm. By blending crystalline cellulose and phenolic resin in various mass ratios as carbon precursors, we were able to adjust the bulk density, median pore diameter, and overall chemical reactivity of the carbon preforms produced. The liquid silicon infiltration reactions were performed in a graphite element furnace at temperatures between 1414 and 1900 °C and under argon pressures of 1550, 760, and 0.5 Torr for periods of 10, 15, 30, 60, 120, and 300 min. Examination of the results indicated that the ideal carbon preform was produced from the crystalline cellulose and phenolic resin blend of 6:4 mass ratio. This carbon preform has a bulk density of 0.7910 g cm−3, an actual density of 2.1911 g cm−3, median pore diameter of 1.45 μm, and specific surface area of 644.75 m2 g−1. The ideal liquid silicon infiltration reaction conditions were identified as 1800 °C, 0.5 Torr, and 120 min. The optimum reaction product has a bulk density of 2.9566 g cm−3, greater than 91% of that of pure β–SiC, with a β–SiC volume fraction of approximately 82.5%.

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Characterisation of Silicon Carbide from Dark Red Meranti Wood

Materials Science Forum ◽

10.4028/www.scientific.net/msf.878.108 ◽

2016 ◽

Vol 878 ◽

pp. 108-113

Author(s):

Noor Leha Abdul Rahman ◽

Koay Mei Hyie ◽

Anizah Kalam ◽

Teng Wan Dung ◽

Husna Elias

Keyword(s):

Silicon Carbide ◽

Gas Flow ◽

Ceramic Materials ◽

Heterogeneous Structure ◽

Pyrolysis Process ◽

Argon Gas ◽

Carbon Preform ◽

Silicon Carbide Ceramic ◽

Major Weight Loss ◽

Derivation Process

Porous biomorphic silicon carbide is a promising ceramic materials for used in wide variety of applications especially in filtration and separation. Wood derived silicon carbide retains the heterogeneous structure of initial wood. Silicon carbide ceramic was derived from Dark Red Meranti wood precursor in this study. The derivation process was prepared by reaction between liquid silicon and carbon preform. The carbon preform was obtained via pyrolysis process at 850 °C in Argon gas flow atmosphere. This process was followed by Si infiltration at 1500 °C for different holding hours. The density was determined using Archimedes method. SEM was performed to observe their microstructures while the compositions and phase analysis were analysed by EDX and XRD respectively. Thermogravimetric analysis showed that a major weight loss of about 60% of carbon perform due to the decomposition of cellulose and lignin.XRD results revealed the presence of SiC and excess of silicon. It was found that conversion efficiency of carbon into SiC has been improved when the holding time was increased.

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Reaction Formed SiC Prepared by Room Temperature Freezing Casting

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.512-515.297 ◽

2012 ◽

Vol 512-515 ◽

pp. 297-300

Author(s):

Chuan Qi Hu ◽

Hua Wang ◽

Hai Lin Liu ◽

Yan Li Huo ◽

Jie Tang ◽

...

Keyword(s):

Mechanical Property ◽

Silicon Carbide ◽

Flexural Strength ◽

Porous Carbon ◽

Weibull Modulus ◽

Room Temperature ◽

Methyl Cellulose ◽

Infiltration Process ◽

Carbon Preform ◽

Carbon Resource

The porous carbon preforms with fine pore structure has been successfully fabricated by room temperature freezing casting, and the reaction formed SiC with fine mechanical property has prepared successfully by liquid silicon infiltration process. Charcoal powder was used as carbon resource, camphene was used as sublimate vehicle, methyl cellulose was used as pore maker and bonder. The result shows that the homogeneity of the porous carbon preform has been improved largely by adding methyl cellulose ,and the defects of reaction formed silicon carbide has reduced largely also. The density, average flexural strength and Weibull modulus of the best reaction formed silicon carbide prepared in this paper is 2.86 g/cm3, 430.75MPa and 9.29 respectively.

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Technology Research of Silicon Carbide by Extruding

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.335-336.717 ◽

2011 ◽

Vol 335-336 ◽

pp. 717-720

Author(s):

Zhu Xing Tang ◽

Xia Zhao ◽

Hui Hui Tan ◽

He Zhang

Keyword(s):

Mechanical Properties ◽

Silicon Carbide ◽

Production Efficiency ◽

Phenolic Resin ◽

Bending Strength ◽

Nitrogen Atmosphere ◽

Extrusion Force ◽

Technology Research ◽

Plasticizer Content ◽

Silicon Carbide Ceramic

The silicon carbide was extruded by the batch and sintered under Nitrogen atmosphere using phenolic resin as the main organic plasticizer. The effect of phenolic resin contents on plasticity of the batch, extrusion force and density of the green bodies and the effect of the solidifying law on mechanical properties of products were studied in this paper. The results are as follows: The density and bending strength of sintered bodies reach 3.11 g/cm3and 320Mpa with 13.6wt% plasticizer content, the extrusion moding can significantly improve the production efficiency and properties of silicon carbide ceramic.

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