以聚乙二醇-200和聚乙二醇-400为改性剂、对甲苯磺酸为催化剂对煤沥青进行改性,研究改性煤沥青的化学性质、成焦的晶体结构和显微结构。结果表明,改性后的煤沥青茁树脂含量提高了51.90%-55.18%,芳核的缩合度和骨架振动吸收频率显著增大;改性反应主要发生在芳环的氢位上。在800℃时的残炭率比未改性煤沥青增加了18%;此外,在低于160℃时,经聚乙二醇-400改性后的煤沥青黏度低于同温度下未改性的煤沥青黏度,而经聚乙二醇-200改性的煤沥青黏度则高于同温度下未改性的煤沥青黏度。经聚乙二醇-200改性的沥青所制半焦纤维组织结构明显改善;其有序性和堆积高度也显著提高。
Polyethylene glycol-200 and-400 were used to modify coal-tar pitch using p-toluene sulfonic acid as a catalyst. The chemical properties of the modified pitches and the microstructure of the derived cokes were studied. Results showed that theβresin contents were increased by 52-55 wt.%, the residual carbon yield at 800℃ was increased by 18 wt.%, the vibration absorption fre-quency of C=C bond in aromatic rings increased significantly, and the condensation degree was improved after the modification. The modification reactions occurred at the positions of aromatic hydrogen. The viscosities of the pitch modified with PG-400 and-200 are respectively lower and higher than that of the pristine pitch. The fibrous structure of the semi-coke from the PG-200 modified pitch was significantly improved and its degree of ordering and stack height of graphene layers were also increased significantly.
参考文献
[1] | Méndez A;Santamaría R;Menéndez R et al.Influence of granular carbons on the pyrolysis behaviour of coal tar pitches[J].J Anal Palp Pyrol,2001,58-59(04):825-840. |
[2] | Moriyama R.;Hayashi J.;Yamaguchi C.;Mondori J.;Matsui H. Chiba T.;Kumagai H. .Formation of mesophase spheres from a coal tar pitch upon heating and subsequent cooling observed by an in situ H-1-NMR[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(5):749-758. |
[3] | Matzinos PD.;Walker A.;Patrick JW. .COAL-TAR PITCH AS A MATRIX PRECURSOR FOR 2-D C/C COMPOSITES[J].Carbon: An International Journal Sponsored by the American Carbon Society,1996(5):639-644. |
[4] | Domínguez A;Blanco C;Santamaría R;et a1 .Monitoring coal-tar pitch composition changes during air-blowing by gas chroma-tography[J].Journal of Chromatography A,2004,1026(1-2):231-238. |
[5] | M.Sakai;S.Shimizu;N.Miyajima .Viscoelastic indentation on iodine-treated coal tar pitch[J].Carbon: An International Journal Sponsored by the American Carbon Society,2001(4):605-614. |
[6] | Oh S.-M.;Park Y.-D. .Comparative studies of the modification of coal-tar pitch[J].Fuel,1999(15):1859-1865. |
[7] | Lin Q L;Li T H;Ji Y B et al.Study of the modification of coal-tar pitch with p-methyl benzaldehyde[J].FUEL,2005,84(2-3):177-182. |
[8] | 林起浪,李铁虎.对甲基苯甲醛改性煤沥青的流变行为[J].煤炭学报,2007(10):1075-1078. |
[9] | Qing Cao;Xiaolin Xie;Jinpin Li;Jinxiang Dong;Li'e Jin.A novel method for removing quinoline insolubles and ash in coal tar pitch using electrostatic fields[J].Fuel,2012:314-318. |
[10] | J. Machnikowski;P. Rutkowski;M.A. Diez .Co-treatment of novolac- and resole-type phenolic resins with coal-tar pitch for porous carbons[J].Journal of analytical & applied pyrolysis,2006(1/2):80-87. |
[11] | 杨琴,李铁虎,林起浪,单玲.呋喃树脂对煤沥青流变性能的影响[J].新型炭材料,2005(01):67-70. |
[12] | V.E.Yudin;M.Ya.Goykhman;K.Balik;P.Glogar;P.Polivka;G.N.Gubanova;V.V.Kudryavtsev .Carbon/carbon composites based on a polyimide matrix with coal tar pitch[J].Carbon: An International Journal Sponsored by the American Carbon Society,2002(9):1427-1433. |
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