花岗岩沥青混合料压实特性分析
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摘要
为研究花岗岩沥青混合料的压实特性,开展了马歇尔击实法和旋转压实法试验,根据旋转压实曲线及其体积指标对比分析了油石比、压实方式及水泥替换矿粉对花岗岩沥青混合料压实性能的影响。研究结果表明:随着油石比的增加,两种压实方式下混合料密实度均逐渐增大,提升幅度先增大后减小,旋转压实法对油石比的变化更为敏感;采用马歇尔击实法进行花岗岩沥青混合料设计易引起击实锤反弹,降低了机械能的转化率,马歇尔击实法设计得到的油石比与旋转压实法相比增加幅度达11.1%;采用水泥替代部分矿粉有利于花岗岩沥青混合料的压实。
In order to study the compaction characteristics of granite asphalt mixture,the Marshall compaction and the rotary compaction tests are carried out on the AC-20 granite asphalt mixture.Based on rotation compaction curve and mixture volume index,the effects of oil-stone ratio,compaction method and cement on the compaction performance of granite asphalt mixture are analyzed.The results show that with the increase of oil-stone ratio,the compactness of the mixture increases gradually under the two compaction modes,and the increase amplitude first increases and then decreases.The rotary compaction method is more sensitive to the change of oil-stone ratio.The Marshall compaction method used to design the granite asphalt mixture is easy to cause the hammer bounce,and reduce the conversion rate of mechanical energy.The oil-stone ratio obtained by Marshall compaction method has an increase of 11.1%compared with the rotary compaction method.Replacing part of the ore powder with cement is conducive to compaction of granite asphalt mixture.
In order to study the compaction characteristics of granite asphalt mixture,the Marshall compaction and the rotary compaction tests are carried out on the AC-20 granite asphalt mixture.Based on rotation compaction curve and mixture volume index,the effects of oil-stone ratio,compaction method and cement on the compaction performance of granite asphalt mixture are analyzed.The results show that with the increase of oil-stone ratio,the compactness of the mixture increases gradually under the two compaction modes,and the increase amplitude first increases and then decreases.The rotary compaction method is more sensitive to the change of oil-stone ratio.The Marshall compaction method used to design the granite asphalt mixture is easy to cause the hammer bounce,and reduce the conversion rate of mechanical energy.The oil-stone ratio obtained by Marshall compaction method has an increase of 11.1%compared with the rotary compaction method.Replacing part of the ore powder with cement is conducive to compaction of granite asphalt mixture.
引文
[1]周兴业,谭忆秋,李智慧,等.花岗岩沥青混合料水稳定性问题的研究[J].石油沥青,2005,(5):27-30.
[2]李萍,张盼,念腾飞,等.消石灰和水泥改性沥青混合料的路用性能[J].兰州理工大学学报,2018,44(2):135-138.
[3]王民,朱梦良,王英俊,等.水泥代替矿粉对沥青混合料性能的影响分析[J].重庆建筑大学学报,2007,(6):121-125.
[4]付涛,闻佳清,区桦.辉绿岩集料和石灰岩集料混用路用性能研究[J].交通运输研究,2015,1(1):122-128.
[5]蔡氧.不同细集料对沥青混合料性能影响研究[J].上海公路,2010,(4):49-51,13-14.
[6]俞磊.略谈集料品质对沥青混合料目标配合比设计的影响[J].城市道桥与防洪,2012,(10):34-35.
[7]谢海超,张辉,李彦兵,等.水泥作为填料在沥青混合料中的应用[J].公路交通科技,2002,(5):62-64.
[8]李宇峙,杨瑞华,邵腊庚,等.沥青混合料压实特性分析[J].公路交通科技,2005,(3):28-30.
[9]张争奇,袁迎捷,王秉纲.沥青混合料旋转压实密实曲线信息及其应用[J].中国公路学报,2005,(3):1-6.
[10]车法,孙振华,王兵,等.温拌沥青混合料旋转压实特性研究[J].公路交通科技:应用技术版,2013,9(11):248-251.
[11]李祖仲,满新耀,陈拴发.改性沥青应力吸收层混合料旋转压实参数[J].武汉理工大学学报,2012,34(5):40-43.
[2]李萍,张盼,念腾飞,等.消石灰和水泥改性沥青混合料的路用性能[J].兰州理工大学学报,2018,44(2):135-138.
[3]王民,朱梦良,王英俊,等.水泥代替矿粉对沥青混合料性能的影响分析[J].重庆建筑大学学报,2007,(6):121-125.
[4]付涛,闻佳清,区桦.辉绿岩集料和石灰岩集料混用路用性能研究[J].交通运输研究,2015,1(1):122-128.
[5]蔡氧.不同细集料对沥青混合料性能影响研究[J].上海公路,2010,(4):49-51,13-14.
[6]俞磊.略谈集料品质对沥青混合料目标配合比设计的影响[J].城市道桥与防洪,2012,(10):34-35.
[7]谢海超,张辉,李彦兵,等.水泥作为填料在沥青混合料中的应用[J].公路交通科技,2002,(5):62-64.
[8]李宇峙,杨瑞华,邵腊庚,等.沥青混合料压实特性分析[J].公路交通科技,2005,(3):28-30.
[9]张争奇,袁迎捷,王秉纲.沥青混合料旋转压实密实曲线信息及其应用[J].中国公路学报,2005,(3):1-6.
[10]车法,孙振华,王兵,等.温拌沥青混合料旋转压实特性研究[J].公路交通科技:应用技术版,2013,9(11):248-251.
[11]李祖仲,满新耀,陈拴发.改性沥青应力吸收层混合料旋转压实参数[J].武汉理工大学学报,2012,34(5):40-43.
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