Structural optimization study based on crushing of semi-rigid base

IF 1 4区 数学 Q1 MATHEMATICS
Liting Yu, Lenan Wang, J. Pei, Rui Li, Jiu-peng Zhang, Shihui Cheng
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引用次数: 1

Abstract

Semi-rigid base materials are used in all pavement grades and are shown to have excellent stability. Furthermore, semi-rigid bases are known for their stiffness and strong frost resistance. However, these semi-rigid base materials are starting to require significant levels of maintenance and repair due to wear and tear. Maintenance is performed primarily to add pavement and resurfacing material, with the hope that the resurfacing layer can withstand large tensile and shear forces at the cracks of the base, thus increasing the overall durability of the pavement. Furthermore, crushing technology used for cement panel maintenance can be used to eliminate cracks in the overlay layer thus improving overall service life expectancy. The studies below study the application of crushing technology to a semi-rigid base and the subsequent alternation to the structural design of the pavement. Furthermore, the mechanical index sensitivities of pavement structures post-rubblization were analyzed using finite elements. Mechanical indexes with high sensitivity were subsequently adopted as structural damage control indexes. These indexes were used to optimize overlay structure and provide a reference for structural design post-rubblization.
基于半刚性基层破碎的结构优化研究
半刚性基层材料用于所有路面等级,并显示出优异的稳定性。此外,半刚性基以其刚度和强抗冻性而闻名。然而,由于磨损,这些半刚性基础材料开始需要大量的维护和维修。维修主要是为了增加路面和重铺材料,希望重铺层能够承受基层裂缝处较大的拉伸和剪切力,从而增加路面的整体耐久性。此外,用于水泥板维护的破碎技术可用于消除覆盖层中的裂缝,从而提高整体使用寿命。下面的研究研究了破碎技术在半刚性基层中的应用,以及随后在路面结构设计中的应用。在此基础上,采用有限元方法对路面结构的力学指标敏感性进行了分析。采用灵敏度较高的力学指标作为结构损伤控制指标。利用这些指标对加铺层结构进行优化,为加铺层后的结构设计提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.30
自引率
12.50%
发文量
170
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