A numerical method to integrate duration-of-load and bacterial deterioration for long-standing timber piles

IF 3.1 2区农林科学 Q1 FORESTRY

Wood Science and Technology Pub Date : 2025-04-10 DOI:10.1007/s00226-025-01652-8

Changxi Yang, Ani Khaloian-Sarnaghi, Taoyi Yu, Jan-Willem van de Kuilen

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引用次数: 0

Abstract

The strength degradation resulting from duration-of-load (DOL) effect and bacterial decay poses significant challenges to historical timber piles. Many historical European cities still heavily rely on the infrastructure supported by their original timber foundations. A reliable modelling approach on the structural performance of timber piles is needed to avoid the economic loss caused by closing down infrastructure. In this work, we consider a simplified bacterial decay model and develop a numerical framework to integrate the decay model into a standard DOL model. Two approaches are proposed and compared: one considering the homogenised effect of bacterial decay over the entire cross section, and the other taking into account the localised failure accelerated by bacterial decay and applying stiffness reduction to allow stress redistribution. Although the homogenised failure criterion is found to potentially underestimate the effect of bacterial decay, both approaches are able to capture the designated decay pattern. Ultimately, there is a potential for future extension to more intricate loading conditions and decay patterns.

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长期木桩荷载持续时间与细菌劣化的数值计算方法

由荷载持续时间效应和细菌腐烂引起的强度退化对历史木桩提出了重大挑战。许多历史悠久的欧洲城市仍然严重依赖原始木材基础的基础设施。为了避免基础设施关闭造成的经济损失，需要一种可靠的木桩结构性能建模方法。在这项工作中，我们考虑了一个简化的细菌腐烂模型，并开发了一个数值框架，将腐烂模型集成到标准DOL模型中。提出并比较了两种方法：一种考虑了细菌腐烂在整个截面上的均匀效应，另一种考虑了细菌腐烂加速的局部破坏，并应用刚度降低来允许应力重新分布。虽然发现均质失效标准可能低估了细菌腐烂的影响，但两种方法都能够捕获指定的腐烂模式。最终，未来有可能扩展到更复杂的加载条件和衰减模式。

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来源期刊

Wood Science and Technology 工程技术-材料科学：纸与木材

CiteScore

5.90

自引率

5.90%

发文量

审稿时长

3 months

期刊介绍： Wood Science and Technology publishes original scientific research results and review papers covering the entire field of wood material science, wood components and wood based products. Subjects are wood biology and wood quality, wood physics and physical technologies, wood chemistry and chemical technologies. Latest advances in areas such as cell wall and wood formation; structural and chemical composition of wood and wood composites and their property relations; physical, mechanical and chemical characterization and relevant methodological developments, and microbiological degradation of wood and wood based products are reported. Topics related to wood technology include machining, gluing, and finishing, composite technology, wood modification, wood mechanics, creep and rheology, and the conversion of wood into pulp and biorefinery products.