Foaming Process of Mesophase Pitch-derived Carbon Foam and Its Kinetic Research

Using AR mesophase pitch as precursor，the foaming process and its kinetic characteristic of mesophase pitch-derived carbon foam were studied by thermogravimetry，viscosity analysis，mass spectroscopy，and Fourier transform infrared spectroscopy. The results suggest that the aliphatic chains of pitch decomposed during foaming process，thus gases such as H2、CH4、H2O and CO were released，and the chemical structures of the pitch were changed，which led to the change of viscosity. In addition，the effect of heating rate and foaming temperature on foaming process of mesophase pitch was investigated based on thermogravimetric analysis，and it was found that mass loss （Δw） at a constant foaming temperature was proportional to a simple fractional exponent of foaming time （tb）. A simple mathematical model was proposed to describe the kinetics of isothermal foaming process for mesophase pitch with respect to heating rate effect by the Arrhenius equation，this research has a theoretical guidance for the controllable preparation of mesophase pitch-derived carbon foams.

Keywords: mesophase pitch,  foaming process,  kinetic,  mathematical model

FORD W D. Method of making cellular refractory thermal insulating material: US3121050[P]. 1964-02-11.

CHEN S L. GUO J G.ZH0U M H et al. Effect of the catalytic polymerization parameters on structure and properties of naphthalene pilch [J]. Journal of Hunan University (Natural Sciences), 2017.44( 6): 81 -86. (In Chinese)

KLETT J W. Process for making carbon foam: US6033506A Ð]. 2000-03-07.

KLETT J W. MCMILLAN A D. CALI.E CO N C. et al. Effects of heat treatment conditions on the thermal properties of mesophase pitch-derived graphitic foams [J]. Carlton. 2004.42 (8/9): 1849- 1852.

AN B X. LI T Q. WANG C Y. Effect of foaming conditions on formation of mesophase pitch-based carbon foams [J], Carlton Techniques . 2005.24( 6): 1 -4. (In Chinese)

XIAO F. ZHANG H B. XIONG X. et at. Effects of foaming pressure on microstructures and properties of mesoph&se-pitch-derived carbon foams [J]. The Chinese, Journal of Nonferrous Metals. 2010.20 (7): 1346-1352. (In Chinese)

WANG X J.YANC J H.ZHAN L,et al. Preparation and perfoimance of mesophase pilch based carbon foam[J]. Journal of Mate-rials Science & Engineering,2008,26 ( 3): 390-394. (In Chinese)

GONZALEZ R. LUDWIKOWSKI B M. Study of the growth and motion of graphitic foam bubbles [J]. Carbon, 2005,43 (15): 3075-3087.

SIHN S,ROY A K. Modeling and prediction of bulk properties of open-cell carbon foam [J]. Journal of the Mechanics & Physics of Solids, 2004.52(1): 167-191.

KLETT J. HARDY R. ROMINE E. et al. High-thermal-conduc-tivity, mesophase-pitch-derived carbon foams: effect of precursor on structure and properties[J]. Carbon.2000,38(7):953-973.

ZHANG Z J. YU X D, WANG Y W. et al. Effect of foaming technology on pore structure of carbon foams [J]. Transactions of Beijing Institute of Technology .2012.32(6 ):641-644. (In Chinese)

BEECHEM T. LAFDI K. ELCAFY A. Bubble growth mechanism in carbon foams[J] . Carbon, 2005,43(5): 1055-1064.