松散颗粒路面;有理解的设计:一个修订和扩展

IF 0.3 Q4 ENGINEERING, GEOLOGICAL Australian Geomechanics Journal Pub Date : 2022-06-01 DOI:10.56295/agj5726
R. Rallings
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引用次数: 0

摘要

原始论文Rallings(2018)提出了一个基本的无粘结颗粒路面(UGPs)对单轮荷载通道响应的行为模型,这些路面建立在压实的粘土路基上。下面修正和扩展了原来的模型,并包含了新的术语和概念。所提出的模型是基于这样的假设,即高架路基剪切应变与应变控制机制一起干扰了上覆颗粒材料(OGM)的结构,导致其刚度和UGP的承载能力降低,本质上是其保持表面形状的能力。有人提出,路基抗剪强度的短期下降和/或轮荷载谱内最重荷载频率的增加是导致UGP承载能力退化的常见主要因素。所提出的模型提供了一种直接和简单的方法来预测UGP对负载通道的响应,允许设计师和资产管理人员区分那些对UGP构成潜在威胁的车轮负载和那些不构成潜在威胁的车轮负载。
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Unbound Granular Pavements; Design With Understanding : A Revision And Extension
The original paper, Rallings (2018), presented a rudimentary behavioural model of the response of unbound granular pavements (UGPs), ones that are founded on compacted clay subgrades, to passages of single wheel loads. The following amends and expands the original model and includes new terms and concepts. The proposed model is based on the assumption that elevated subgrade shear strains in conjunction with a strain-controlled mechanism disturb the fabric of the overlying granular materials (OGM) causing reductions in their stiffness and in the UGP’s load carrying capacity, essentially its ability to maintain its surface shape. It is proposed that short term falls in the subgrade shear strength and/or increases in the frequency of the heaviest loads within the wheel load spectrum are the common major contributors to the degradation of a UGP’s load carrying capacity. The proposed model provides a direct and simple means to predict the response of a UGP to load passages, allowing designers and asset managers alike to distinguish between those wheel loads that pose a potential threat to the UGP from those that do not.
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来源期刊
Australian Geomechanics Journal
Australian Geomechanics Journal ENGINEERING, GEOLOGICAL-
CiteScore
0.40
自引率
0.00%
发文量
1
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