运用最先进的小型加速加载设备MMLS3(1/3model mobile load simulator)对常见的用于上、中面层的4种改性沥青混合料进行了高温稳定性试验,提出了适合中国的MMLS3室内加速加载的各项试验参数.通过研究改性沥青混合料的实际抗车辙性能,得...运用最先进的小型加速加载设备MMLS3(1/3model mobile load simulator)对常见的用于上、中面层的4种改性沥青混合料进行了高温稳定性试验,提出了适合中国的MMLS3室内加速加载的各项试验参数.通过研究改性沥青混合料的实际抗车辙性能,得出沥青混合料高温稳定性能的优劣顺序为:SBS橡胶复合改性SMA-13,SBS改性AC-20C,SBS改性AC-13C,SBS橡胶复合改性OGFC-13,岩沥青改性AC-20C.由于OGFC-13的大空隙结构,必然要在某种程度上牺牲其强度、抗剪切性能及耐久性,不建议在重交通的高速公路上使用其作为表面层.高温重载或超限地区应加强中面层的优化设计.MMLS3加载试验及常规动稳定度试验在衡量空隙率差距小的沥青混合料时,两者试验结果具有较好的一致性;而对于不同沥青混合料,当其空隙率差距大时,应根据需要选择合适的试验或评价方法.展开更多
In order to assess the difference in performance of pavements under conventional loading and accelerated loading,in this paper,based on the characteristics of pavement strain recovery in accelerated pavement tests(APT...In order to assess the difference in performance of pavements under conventional loading and accelerated loading,in this paper,based on the characteristics of pavement strain recovery in accelerated pavement tests(APTs),we define accelerated loading and conventional loading in pavement permanent deformation research.The finite element method is then used to establish a flexible contact model between tire and asphalt pavement.By using simulation,the difference in dynamic stress and rutting of a pavement under the two different loadings is studied.It is discovered that if the APT forms an accelerated loading effect,the pavement will produce deeper rutting under the same axle loading cycle.展开更多
文摘运用最先进的小型加速加载设备MMLS3(1/3model mobile load simulator)对常见的用于上、中面层的4种改性沥青混合料进行了高温稳定性试验,提出了适合中国的MMLS3室内加速加载的各项试验参数.通过研究改性沥青混合料的实际抗车辙性能,得出沥青混合料高温稳定性能的优劣顺序为:SBS橡胶复合改性SMA-13,SBS改性AC-20C,SBS改性AC-13C,SBS橡胶复合改性OGFC-13,岩沥青改性AC-20C.由于OGFC-13的大空隙结构,必然要在某种程度上牺牲其强度、抗剪切性能及耐久性,不建议在重交通的高速公路上使用其作为表面层.高温重载或超限地区应加强中面层的优化设计.MMLS3加载试验及常规动稳定度试验在衡量空隙率差距小的沥青混合料时,两者试验结果具有较好的一致性;而对于不同沥青混合料,当其空隙率差距大时,应根据需要选择合适的试验或评价方法.
基金the National Key Research and Development Program of China(Nos.2017YFF0205600 and 2017YFF0205602)the Fundamental Research Funds for the Central Universities(No.FRF-TP-18-048A1),China。
文摘In order to assess the difference in performance of pavements under conventional loading and accelerated loading,in this paper,based on the characteristics of pavement strain recovery in accelerated pavement tests(APTs),we define accelerated loading and conventional loading in pavement permanent deformation research.The finite element method is then used to establish a flexible contact model between tire and asphalt pavement.By using simulation,the difference in dynamic stress and rutting of a pavement under the two different loadings is studied.It is discovered that if the APT forms an accelerated loading effect,the pavement will produce deeper rutting under the same axle loading cycle.