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不同加筋方式对风积沙路堤稳定性的影响分析 被引量:2

Influence of Different Reinforcement Methods on Stability of Aeolian Sand Embankment
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摘要 以风积沙路堤边坡为研究对象,对风积沙填料填筑的路堤边坡,从不同加筋方式进行了数值模拟研究。结果表明:等长加筋方式存在一定不足,采用不等长加筋方式较为合理。不等长布筋方式中,集中布筋方式长筋和短筋的轴力分布更加均衡,但从边坡变形和稳定性考虑,间隔布筋方式更合理。不等长加筋存在一个最佳长度比,推荐不等长加筋的长度比为1∶1. 6。 Taking Aeolian sand embankment slope as the research object,the embankment slope filled with aeolian sand was numerically studied from the perspective of different reinforcement methods.The results show that there is a certain shortage in the way of equal length reinforcement,and it is more reasonable to adopt the way of unequal reinforcement.In the case of unequal length reinforcement,the axial force distribution of long reinforcement and short reinforcement in a centralized reinforcement method is more balanced.However,considering the deformation and stability of the slope,the spacing reinforcement method is more reasonable.There is an optimal length ratio for the unequal reinforcement,and the length ratio of the recommended unequal length is 1∶1.6.These results can provide a reference for the construction and design of similar areas.
作者 李宏图 LI Hongtu(China Water Conservancy and Hydropower Eleventh Engineering Bureau Co.,Ltd.,Zhengzhou 450001,China)
机构地区 中国水利水电第十一工程局有限公司
出处 《路基工程》 2018年第5期119-123,共5页 Subgrade Engineering
关键词 沙漠丘陵地区 重载铁路 路堤边坡 不等长加筋 加筋长度比 desert hilly area heavy railway embankment slope unequal length of reinforcement reinforced length ratio
分类号 U414.1 [交通运输工程—道路与铁道工程]
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  • 1王志玲.加筋粉土的抗剪强度特性探讨[J].人民黄河,1994,17(6):39-41. 被引量:8
  • 2李碧雄.高层建筑地基及高土石坝新型双面加筋土高挡墙试验研究与分析[M].成都:成都科技大学,1994,11..
  • 3沈珠江.用有限单元法计算软土地基的固结变形[J].水利水运科技情报,1977,(1):7-23.
  • 4JTJ/T019—98.公路土工合成材料应用技术规范[s].[S].,..
  • 5Tatsuoka F, Siddiquee M S A, Park C, Sakamoto M, Abe F. Modeling stress-strain relations of sand[J]. Soils andFoundations, 1993, 33(2): 60-81.
  • 6Peng F L. Constitutive modeling and finite element analysis of reinforced soils[D]. Tokyo: The University of Tokyo, 2000.
  • 7Siddiquee M S A, Tanaka T, Tatsuoka F, Tani K, Morimoto T. Numerical simulation of bearing capacity characteristics of strip footing on sand[J]. Soils and Foundations, 2000, 39(4): 93-109.
  • 8Kotake N, Tanaka T, Tatsuoka F, Yamauchi H. Numerical simulation of strain localization and failure in reinforced sand, deformation and progressive failure in geomechanics[A]. Asaoka A, Adachi T, Oka F. Proceedings of the International Symposium Deformati
  • 9Rowe P W. The stressdilatancy relation for static equilibrium of an assembly of 1particles in contact[J]. Proceedings of Royal Society, 1962, (Series A): 500- 527
  • 10Yoshida T, Tatsuoka F, Siddiquee M S A, Kamegai Y, Park C S. Shear banding in sand in plane strain compression, localization and bifurcation theory for soils and rocks[A]. Adachi T, Oka F and Yashima A, Editors. Proceedings of the Fouth International Work

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路基工程
2018年 第5期

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