武汉理工大学学报(交通科学与工程版)
武漢理工大學學報(交通科學與工程版)
무한리공대학학보(교통과학여공정판)
JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY(TRANSPORTATION SCIENCE & ENGINEERING)
2015年
2期
246-249
,共4页
道路工程%沥青混合料%旋转压实%压实特性%高温性能
道路工程%瀝青混閤料%鏇轉壓實%壓實特性%高溫性能
도로공정%력청혼합료%선전압실%압실특성%고온성능
pavement engineering%asphalt mixture%gyratory compaction%compaction characteristics%high temperature performance
为了通过不同级配沥青混合料的压实特性分析其高温稳定性,采用密实度斜率 K、密实度能量指数 CEI92,CEINini-92,92%密实度对应的旋转次数 N92这4个指标研究了普通沥青和改性沥青成型的粗、中、细3种级配共6种沥青混合料的压实特性,并将4个指标值与沥青混合料60℃动态蠕变试验第二阶段的斜率值进行相关性分析。结果表明,级配越粗,密实度能量指数越大,沥青混合料越难压实,但其高温稳定性并一定越好;密实度斜率 K与沥青混合料高温稳定性相关性较好,在沥青混合料级配选择时可选择 K值更小的级配,使沥青混合料具有更好的高温性能。
為瞭通過不同級配瀝青混閤料的壓實特性分析其高溫穩定性,採用密實度斜率 K、密實度能量指數 CEI92,CEINini-92,92%密實度對應的鏇轉次數 N92這4箇指標研究瞭普通瀝青和改性瀝青成型的粗、中、細3種級配共6種瀝青混閤料的壓實特性,併將4箇指標值與瀝青混閤料60℃動態蠕變試驗第二階段的斜率值進行相關性分析。結果錶明,級配越粗,密實度能量指數越大,瀝青混閤料越難壓實,但其高溫穩定性併一定越好;密實度斜率 K與瀝青混閤料高溫穩定性相關性較好,在瀝青混閤料級配選擇時可選擇 K值更小的級配,使瀝青混閤料具有更好的高溫性能。
위료통과불동급배력청혼합료적압실특성분석기고온은정성,채용밀실도사솔 K、밀실도능량지수 CEI92,CEINini-92,92%밀실도대응적선전차수 N92저4개지표연구료보통력청화개성력청성형적조、중、세3충급배공6충력청혼합료적압실특성,병장4개지표치여력청혼합료60℃동태연변시험제이계단적사솔치진행상관성분석。결과표명,급배월조,밀실도능량지수월대,력청혼합료월난압실,단기고온은정성병일정월호;밀실도사솔 K여력청혼합료고온은정성상관성교호,재력청혼합료급배선택시가선택 K치경소적급배,사력청혼합료구유경호적고온성능。
To analysis the high temperature stability of different gradation asphalt mixture by compac‐tion characteristics ,four indexes were used to study the compaction characteristics of six kinds of as‐phalt mixture made of two kinds bitumen (original and modified bitumen ) and three gradation (coarse、middle、fine) ,including compaction slope ( K )、compaction energy index from beginning to 92% density (CEI92 ) 、compaction energy index from initial number of gyrations (Nini )to 92% density (CEINini-92 ) and number of gyrations to 92% density(N92 ) .Correlation analysis was carried out on the value of the four indexes and the slop of the second stage of the dynamic creep test at 60 ℃ .The re‐sults indicate that the asphalt mixture with more coarse gradation ,the CEI is greater and the it is more difficult to be compacted ,but its high temperature stability is not always better .The relation‐ship between K value and the high temperature stability is good ,and the gradation with litter K value can be chosen which will have better high temperature performance .
