Long-term deformation and damage analysis of marine clay around seawalls under coupled dynamic-seepage loading

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-01 DOI:10.1080/1064119X.2022.2141161
Huayang Lei, Ziyang Qi, Shuangxi Feng
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Abstract

Abstract The long-term deformation characteristics and damage degree of soft marine-deposited clay must be evaluated to safely design seawalls. According to abundant field evidence, soft marine-deposited clay tends to experience coupled dynamic loading and seepage loading. Determining the critical load and damage index for these complex loading conditions is imperative. With Tianjin marine-deposited clay as an example, we employed an improved cyclic triaxial instrument to analyse the cumulative plastic strain, water discharge and stress–strain relationship of the clay to understand its long-term deformation development. Based on shakedown theory, the critical cyclic stress ratio (CSR) was determined. A multi-factor damage variable method was proposed to evaluate the damage degree. Its comparison with a traditional mono-factor damage variable method illustrated that this method is effective for damage analyses of marine clay around seawalls under coupled dynamic-seepage loading.
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动态-渗流耦合加载下海堤周围海洋粘土的长期变形和破坏分析
摘要海相软沉积粘土的长期变形特征和破坏程度是海堤安全设计的重要依据。大量的现场证据表明,海相沉积软黏土往往经历动力加载和渗流耦合加载。确定这些复杂载荷条件下的临界载荷和损伤指标是必要的。以天津海相沉积粘土为例,采用改进的循环三轴仪对其累积塑性应变、排水及应力-应变关系进行分析,了解其长期变形发展情况。基于安定理论,确定了临界循环应力比(CSR)。提出了一种多因素损伤变量法来评估损伤程度。与传统的单因素损伤变量法进行了比较,结果表明,该方法可以有效地分析海堤周围海相粘土在动力渗流耦合作用下的损伤。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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