燃料化学学报
燃料化學學報
연료화학학보
Journal of Fuel Chemistry and Technology
2015年
9期
1052-1060
,共9页
陈静%孙鸣%代晓敏%姚一%刘媛媛%贺敏%吕波%赵香龙%马晓迅
陳靜%孫鳴%代曉敏%姚一%劉媛媛%賀敏%呂波%趙香龍%馬曉迅
진정%손명%대효민%요일%류원원%하민%려파%조향룡%마효신
沥青%液化残渣%苯甲醛%聚合%热解
瀝青%液化殘渣%苯甲醛%聚閤%熱解
력청%액화잔사%분갑철%취합%열해
asphalt%direct coal liquefaction residue%benzaldehyde%polymerization%pyrolysis
以苯甲醛为交联剂,采用煤直接液化残渣的四氢呋喃萃取物( THFS)对石油沥青进行了改性。考察了THFS、交联剂的掺杂量以及掺混温度对改性沥青性能的影响。研究表明,当THFS的掺杂量为4%,掺混温度为170℃时改性效果最佳,而且苯甲醛作为交联剂加入可使沥青改性效果更佳。利用热重-傅里叶红外光谱联用仪( TG-FTIR)、傅里叶变换红外光谱仪( FT-IR)和荧光显微镜对改性沥青进行了表征,结果表明,添加了苯甲醛的改性沥青的失重残余率较其他沥青略有提高;苯甲醛交联的改性沥青在热解过程中释放的CH4含量减少且释放温度有所提高;改性沥青在2924 cm-1和2854 cm-1处的脂肪族-CH2-的伸缩振动和表征苯环位取代872、810和746 cm-1处吸收峰的透射率均有较大幅度的提高,并在1060 cm-1处出现C-O-C伸缩振动峰,以及荧光显微镜图像中出现新的改性粒子,表明交联剂的添加使THFS和基质沥青发生了缩合反应。
以苯甲醛為交聯劑,採用煤直接液化殘渣的四氫呋喃萃取物( THFS)對石油瀝青進行瞭改性。攷察瞭THFS、交聯劑的摻雜量以及摻混溫度對改性瀝青性能的影響。研究錶明,噹THFS的摻雜量為4%,摻混溫度為170℃時改性效果最佳,而且苯甲醛作為交聯劑加入可使瀝青改性效果更佳。利用熱重-傅裏葉紅外光譜聯用儀( TG-FTIR)、傅裏葉變換紅外光譜儀( FT-IR)和熒光顯微鏡對改性瀝青進行瞭錶徵,結果錶明,添加瞭苯甲醛的改性瀝青的失重殘餘率較其他瀝青略有提高;苯甲醛交聯的改性瀝青在熱解過程中釋放的CH4含量減少且釋放溫度有所提高;改性瀝青在2924 cm-1和2854 cm-1處的脂肪族-CH2-的伸縮振動和錶徵苯環位取代872、810和746 cm-1處吸收峰的透射率均有較大幅度的提高,併在1060 cm-1處齣現C-O-C伸縮振動峰,以及熒光顯微鏡圖像中齣現新的改性粒子,錶明交聯劑的添加使THFS和基質瀝青髮生瞭縮閤反應。
이분갑철위교련제,채용매직접액화잔사적사경부남췌취물( THFS)대석유력청진행료개성。고찰료THFS、교련제적참잡량이급참혼온도대개성력청성능적영향。연구표명,당THFS적참잡량위4%,참혼온도위170℃시개성효과최가,이차분갑철작위교련제가입가사력청개성효과경가。이용열중-부리협홍외광보련용의( TG-FTIR)、부리협변환홍외광보의( FT-IR)화형광현미경대개성력청진행료표정,결과표명,첨가료분갑철적개성력청적실중잔여솔교기타력청략유제고;분갑철교련적개성력청재열해과정중석방적CH4함량감소차석방온도유소제고;개성력청재2924 cm-1화2854 cm-1처적지방족-CH2-적신축진동화표정분배위취대872、810화746 cm-1처흡수봉적투사솔균유교대폭도적제고,병재1060 cm-1처출현C-O-C신축진동봉,이급형광현미경도상중출현신적개성입자,표명교련제적첨가사THFS화기질력청발생료축합반응。
The modified asphalt was prepared via adding tetrahydrofuran soluble fraction of direct coal liquefaction residue ( THFS) as modifier and benzaldehyde as crosslinking agent. Modification conditions such as mixing temperature, ratio of THFS and crosslinking agent to asphalt were studied. The optimal conditions are mixing temperature of 170 ℃, and THFS to asphalt ratio of 4%. The modified asphalt can get the better properties by using crosslinking agent. Characterizations of modified asphalt were analyzed by TG-FTIR, FT-IR and fluorescence microscope. Comparing with other asphalt the weight loss of modified asphalt which added benzaldehyde as crosslinking agent is lower. The modified asphalt with benzaldehyde as crosslinking agent has less CH4 release than other samples and CH4 was released at higher temperature. The involvement of benzaldehyde significantly enhances the stretching vibration of aliphatics (-CH2-) of modified asphalt at 2 924 and 2 854 cm-1 as well as the transmittance of the absorption peaks at 872 , 810 and 746 cm-1 representing benzene substituent, and a new absorption peak at 1 060 cm-1 assigned to C-O-C stretching vibration. Moreover the new modified particle in the fluorescence microscope images indicates that the involvement of cross-linking agent may cause polycondensation of THFS and the matrix asphalt.
