Test on strengthening interlayer cohesion of semirigid base asphalt pavement by interlayer treatment(PDF)
长安大学学报(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]
- Issue:
- 2019年04期
- Page:
- 44-51
- Research Field:
- 道路工程
- Publishing date:
Info
- Title:
- Test on strengthening interlayer cohesion of semirigid base asphalt pavement by interlayer treatment
- Author(s):
- CHEN Shibin1; YUAN Yongqiang1; YAO Yunshi1; 2; GAO Feng1; ZHANG Liangqi2
- (1. 〖JP2〗Key Laboratory of Road Construction Technology and Equipment, Ministry of Education, Changan University,〖JP〗 Xian 710064, Shaanxi, China; 2. Henan Wanli Transportation Science & Technology Group Co., Ltd., Xuchang 461000, Henan, China)
- Keywords:
- road engineering; semirigid asphalt pavement; base treatment; bonding force; pits
- PACS:
- -
- DOI:
- -
- Abstract:
- In order to improve the interlayer cohesion between cement stabilized macadam and asphalt layer in semirigid asphalt pavement, a new method of interlayer treatment by introducing regular pits on the surface of semirigid cement stabilized macadam base course was proposed. The standard size die combined with hydrostatic forming method was used to form the regular pits on base course, and the semirigid base asphalt pavement was finally formed by the die integration. The stress properties of the samples were tested by shear stress and pulling stress equipment, then the new treatment methods and traditional treatment methods were compared. The results show that the designed forming method can effectively form semirigid cement stabilized macadam base and semirigid base asphalt pavement with regular pits on the surface. The maximum interlayer shear stress of the pavement with 9 pits of diameter is 18 mm (Ф18) on the base is 5.2% higher than that of the milling process, and the maximum pulling stress is increased by 7.39%. The maximum interlayer shear stress is 41.05% higher than the base course with oil permeable layer, and the maximum pulling stress is increased by 29.51%. The maximum interlayer shear stress is 71.65% higher than that of the untreated base course, and the maximum pulling stress is increased by 80.38%. The maximum shear force of the base course with 12 pits is 22.72% higher than that of 4 pits, and the maximum pulling force is increased by 23.2%, the maximum interlayer shear force of the base course with 9 pits of Ф18 mm is 43.4% higher than that of 9 pits of Ф8 mm, and the maximum pulling stress is increased by 35.87%. Increasing size and number is equivalent to increasing friction coefficient and rivet resistance, which can improve mechanical property efficiency. With the change of the pavement temperature, the maximum shear force of the pavement treated with pits changes little, which enhances the fatigue strength of the pavement. Compared with the traditional interlayer treatment method, the semirigid cement stabilized macadam base treated by pits can effectively improve the shear strength, pulling strength and fatigue strength of the pavement under external loads. This method can provides a reference for engineering treatment of the base course. 4 tabs, 7 figs, 25 refs.
Last Update: 2019-07-29