硬岩地层大直径盾构圆盘刀具破岩力与磨损预测模型

IF 3.6 2区工程技术 Q2 ENGINEERING, GEOLOGICAL

International Journal for Numerical and Analytical Methods in Geomechanics Pub Date : 2025-09-03 DOI:10.1002/nag.70059

Shang‐Qu Sun, Shuo‐Guo Pan, Li‐Ping Li, Zhao‐Yang Li, Ke‐Rui Fan, Shu‐Jiang He

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引用次数: 0

摘要

在硬岩层大直径盾构施工中，盘式刀具的磨损问题日益突出，极大地增加了工程建设成本。针对硬岩层大直径盾构掘进过程中出现的刀盘磨损问题，分析了刀盘与岩石接触区域的破岩形式和接触力分布，建立了刀盘法向力、滚动力和刀盘磨损的预测模型。利用离散元软件对圆盘刀破岩过程进行了数值模拟，探讨了不同安装半径、刀具速度和侵彻深度下圆盘刀的受力和磨损规律。揭示了盘式刀具在刀盘不同区域的磨损分区现象，分析了磨损规律与安装位置变化的关系及其原因。通过汕头湾海底隧道工程的实测数据验证了该磨损预测模型。研究结果为硬岩层大直径盾构盘式刀具磨损预测提供了科学依据，具有重要的理论意义和工程应用价值。

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Prediction Model for Rock‐Breaking Force and Wear of Large‐Diameter Shield Disc Cutters in Hard Rock Stratum

The wear problem of disc cutters during large‐diameter shield tunneling in hard rock stratum has become increasingly prominent, significantly increasing engineering construction costs. Aiming at the disc cutter wear problem during large‐diameter shield tunneling in hard rock stratum, this paper analyzes the rock‐breaking form and contact force distribution in the cutter‐rock contact area, and establishes the prediction model for normal force, rolling force, and wear of disc cutter. The numerical simulation of disc cutter rock‐breaking is carried out using discrete element software, to explore the force and wear laws under different installation radius, cutter speed, and penetration depth. The wear partition phenomenon of disc cutter in different areas of the cutterhead is revealed, and the relationship between the wear law and installation position changes and its causes are analyzed. The wear prediction model is verified by the measured data of the Shantou Bay Undersea Tunnel Project. The research results provide a scientific basis for the wear prediction of large‐diameter shield disc cutters in hard rock stratum, which has important theoretical significance and engineering application.

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来源期刊

International Journal for Numerical and Analytical Methods in Geomechanics 工程技术-材料科学：综合

CiteScore

6.40

自引率

12.50%

发文量

160

审稿时长

9 months

期刊介绍： The journal welcomes manuscripts that substantially contribute to the understanding of the complex mechanical behaviour of geomaterials (soils, rocks, concrete, ice, snow, and powders), through innovative experimental techniques, and/or through the development of novel numerical or hybrid experimental/numerical modelling concepts in geomechanics. Topics of interest include instabilities and localization, interface and surface phenomena, fracture and failure, multi-physics and other time-dependent phenomena, micromechanics and multi-scale methods, and inverse analysis and stochastic methods. Papers related to energy and environmental issues are particularly welcome. The illustration of the proposed methods and techniques to engineering problems is encouraged. However, manuscripts dealing with applications of existing methods, or proposing incremental improvements to existing methods – in particular marginal extensions of existing analytical solutions or numerical methods – will not be considered for review.