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用基斯勒尔法研究了热处理前后(室温~520℃)相沥青的流变性质。结果表明:在不同温度和不同加热速率下,基斯勒尔流动度具有很好的重现性。未经热处理的中间相沥青的流动度在253~282℃之间随温度增加缓慢增加,在282~311℃随温度增加呈现指数增大,在282~498℃几乎不变。热处理的沥青的流动度也随温度增加呈现类似的S型的变化规律,其中指数增加段可以用阿伦尼乌斯公式计算其粘流活化能。沥青的甲苯不溶物含量随热处理时间增大从67.3%增大到88.7%,粘流活化能为203.6~294 kJ/mol。

The Giseeler fluidity method was used to investigate the rheological properties of pitch with and without heat treatment from room temperature to 520 ℃. Results show that the fluidity has a good repeatability at different temperatures under different heat-ing rates. The fluidity of the raw pitch slowly increases from 253 to 282℃, then increases exponentially from 282 to 311℃ near the softening temperature, and finally remains unchanged from 311 to 498 ℃. This changing pattern of fluidity with temperature has also been found for heat-treated mesophase pitch and can be formulated by the Arrhenius equation, from which the viscous flow activation energy can be obtained. The toluene-insoluble fraction increases from 67. 3% to 88. 7% with heat-treatment time and the flow activa-tion energy of the treated mesophase pitch in the Newtonian fluid region at low temperature range is between 203. 6 and 294 kJ/mol.

参考文献

[1] Santanu Kundu;Amod A. Ogale .Rheostructural studies on a synthetic mesophase pitch during transient shear flow[J].Carbon: An International Journal Sponsored by the American Carbon Society,2006(11):2224-2235.
[2] Dana Grecov;Alejandro D.Rey .Computational rheology of carbonaceous mesophases[J].Carbon: An International Journal Sponsored by the American Carbon Society,2004(7):1257-1261.
[3] Mochida I.;Ku CH.;Watanabe F.;Sakai Y.;Korai Y. .Chemistry of synthesis, structure, preparation and application of aromatic-derived mesophase pitch[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(2):305-328.
[4] M L Jin;J Chen;X L Zhou et al.Study on the preparation of ordered mesophase coke[J].Journal of Chemical Engineering of Chinese Universities,2008,22:644-649.
[5] Noel Diez;Patricia Alvarez;Ricardo Santamaria.Optimisation of the melt-spinning of anthracene oil-based pitch for isotropic carbon fibre preparation[J].Fuel Processing Technology,2012:99-104.
[6] E Fitzer;D Kompalik;K Yudatet .Rheological characteristics of coal-tar pitches[J].FUEL,1987,66:1504-1511.
[7] Blanco C.;Fleurot O.;Menendez R.;Santamaria R.;Bernejo J.;Edie D. .Contribution of the isotropic phase to the rheology of partially anisotropic coal-tar pitches[J].Carbon: An International Journal Sponsored by the American Carbon Society,1999(7):1059-1064.
[8] Khandare PM.;Stansberry PB.;Stiller AH.;Zondlo JW. .Rheological investigation of pitch materials - Part I: Design and development of a high-temperature high-pressure (HTHP) rheometer[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(6):881-887.
[9] Anthony D. Cato;Dan D. Edie .Flow behavior of mesophase pitch[J].Carbon: An International Journal Sponsored by the American Carbon Society,2003(7):1411-1417.
[10] WANG Lian-xing;JIN Ming-lin;ZHOU Xiao-long .Effects of high pressure hot shearing on thermal conductivity of mesophase based carbon[J].NEW CARBON MATERIALS,2012,27(2):135-140.
[11] H W Arshad;L K Lutfullah .Preparation and characterization of pitch-based carbon Fibers[J].NEW CARBON MATERIALS,2009,24(2):83-88.
[12] Cesar Berrueco;Patricia Alvarez;Noel Diez;Marcos Granda;Rosa Menendez;Clara Blanco;Ricardo Santamaria;Marcos Millan.Characterisation and feasibility as carbon fibre precursors of isotropic pitches derived from anthracene oil[J].Fuel,2012:9-15.
[13] Y Hao;K X Yan .Discussion on rheologic behaviour of coal pitch[J].Carbon Techniques,2005,24:49-50.
[14] Anthony D. Cato;Dan D. Edie .Flow behavior of mesophase pitch[J].Carbon: An International Journal Sponsored by the American Carbon Society,2003(7):1411-1417.
[15] R H Liu;M L Jin;Z H Bao et al.Preparation of the ordered carbon block presursor by mesophase pitch[J].Coal Conver-sion,2010,33:63-66.
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