Examination of Fiber-Added Recycled Asphalt Concretes for Surface Course in Airport Pavements

机译：在机场路面中对纤维添加的再生沥青混凝土进行表面层检验

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In order to extend the use of recycled asphalt concretes (RAC) to achieve a higher recycling rate as well as to improve RAC performances, a fiber material is added as a supplement to RAC. A series of laboratory tests are carried out to evaluate RAC at higher recycling rate of 70% and 100% over the specified value. The tests include wheel tracking test, immersed wheel tracking test, three point bending test, Cantabro test and abrasion test. Results indicate that the addition of the fiber improves the basic performances of RAC in terms of resistance to rutting, moisture susceptibility and the cracking as well as its durability. A particularly pronounced effect is observed in RAC with modified asphalt binder, the performances of which are notably improved by the addition of fibers. Although RAC with modified binder containing 100% old aggregates might be acceptable for the surface course of airport pavements, it is concluded that RAC with modified asphalt binder at 70% recycling rate is recommended as a balanced result.

机译：为了扩展再生沥青混凝土（RAC）的使用以实现更高的再生率并改善RAC性能，添加了纤维材料作为RAC的补充。进行了一系列实验室测试，以评估RAC在高于指定值的70％和100％的更高回收率下的情况。这些测试包括车轮跟踪测试，浸入式车轮跟踪测试，三点弯曲测试，Cantabro测试和耐磨性测试。结果表明，纤维的添加改善了RAC的基本性能，包括抗车辙性，耐湿性，抗裂性以及耐久性。在使用改性沥青粘合剂的RAC中观察到特别显着的效果，通过添加纤维可以显着改善其性能。尽管含有100％旧骨料的改性粘结剂的RAC对于机场人行道的表面过程是可以接受的，但得出的结论是，建议采用回收率70％的改性沥青粘结剂的RAC作为平衡的结果。

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《E-proceedings of first international conference on transport infrastructure》|2008年|529-537|
会议地点 Beijing(CN);北京(中国)
作者
H.X.Zheng; rnD.Cheng; rnC.G.Sun; rnF.Y.Gao;
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Dept.of Electronic Engineering Tianjin University of Technology and Education Tianjin,300222 China;

rnDept.of Electronic Engineering Tianjin University of Technology and Education Tianjin,300222 China;

rnDept.of Electronic Engineering Tianjin University of Technology and Education Tianjin,300222 China;

rnDept.of Electronic Engineering Tianjin University of Technology and Education Tianjin,300222 China;

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Examination of Fiber-Added Recycled Asphalt Concretes for Surface Course in Airport Pavements

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