改进有效应力RITSS大变形有限元方法及其海洋工程应用

doi:10.11978/2026052

热带海洋学报

改进有效应力RITSS大变形有限元方法及其海洋工程应用

焦金刚¹, 邸同宇², 张友虎², 徐国贤¹, 邹欣¹, 张旭峰²

1. 中海石油(中国)有限公司北京研究中心, 北京 100028;
2. 东南大学土木工程学院, 江苏南京 211189

收稿日期:2026-03-13 修回日期:2026-04-25 接受日期:2026-05-12
通讯作者: 邸同宇
基金资助:
中海石油（中国）有限公司前瞻基础科技项目(KJQZ-2024-2002)

Improved effective-stress RITSS large-deformation finite element method and its applications in offshore engineering

JIAO Jingang¹, DI Tongyu², ZHANG Youhu ², XU Guoxian ¹, ZOU Xin ¹, ZHANG Xufeng²

1. Beijing Research Center, China National Offshore Oil Co, Ltd, Beijing 100028, China;

2. School of Civil Engineering, Southeast University, Nanjing 211189, China

Received:2026-03-13 Revised:2026-04-25 Accepted:2026-05-12
Supported by:
CNOOC (China) Limited Forward-looking Basic Science Project (KJQZ-2024-2002)

摘要/Abstract

摘要： 在海洋岩土工程中，准确模拟如管道安装、桩靴就位等大变形问题至关重要。传统大变形方法如CEL (coupled eulerian-lagrangian)因ABAQUS软件限制，无法直接进行有效应力分析。而RITSS (Remeshing and Interpolation Technique with Small Strain)方法虽能克服此局限，但其核心的变量映射技术依赖自编算法，存在门槛高、实现难的问题。为此本文分别发展了基于改进超收敛恢复技术(SPR, superconvergent patch recovery)以及改进网格解映射(MSM, mesh-to-mesh solution mapping)技术的RITSS大变形有限元方法。基于上述方法，研究了球形贯入仪贯入和桩靴就位两个典型案例，并对上述两种方法的计算结果进行了验证。结果表明，在球形贯入仪贯入模拟中，两种方法得到的归一化贯入阻力均与其他研究结果吻合良好，改进MSM方法的结果更接近试验数据，证明了两种方法在特定问题上的可靠性。然而，在更为复杂的桩靴就位模拟中，基于改进MSM方法的结果出现了明显的波动和误差，基于改进超收敛恢复技术的RITSS方法则表现出更高的精度和稳定性。本研究为工程应用提供了实用的有效应力大变形分析技术路径。

关键词: RITSS方法, 有效应力, 插值算法, 球形贯入仪, 桩靴

Abstract: In offshore geotechnical engineering, accurately simulating large-deformation problems such as pipeline installation and spudcan installation is crucial. Conventional large-deformation approaches such as the Coupled Eulerian–Lagrangian (CEL) method are restricted by Abaqus, making effective-stress analysis impractical. Although the Remeshing and Interpolation Technique with Small Strain (RITSS) can overcome this limitation, its core variable-mapping procedure relies on self-developed interpolation algorithms, which impose a high entry barrier. To address this issue, this study develops two large-deformation finite element methods based on an improved superconvergent patch recovery (SPR) technique and an improved mesh-to-mesh solution mapping (MSM) technique, respectively. Using these methods, two representative cases—ball penetrometer penetration and spudcan installation—are investigated, and the results obtained from the two approaches are validated. The results show that, for the Ball penetrometer penetration problem, the normalized penetration resistances predicted by both methods agree well with centrifuge test data, with the improved MSM method yielding results closer to the experimental measurements, demonstrating the reliability of both approaches for this problem. However, for the more complex spudcan installation simulation, the improved MSM-based results exhibit pronounced fluctuations and errors, whereas the SPR-based RITSS method delivers higher accuracy and better stability. This study provides a practical technical route for effective-stress large-deformation analysis in engineering applications.

Key words: RITSS, effective stress, interpolation algorithms, ball penetrometer, spudcan

焦金刚邸同宇张友虎徐国贤邹欣张旭峰. 改进有效应力RITSS大变形有限元方法及其海洋工程应用[J]. 热带海洋学报, 0, (): 1-.

JIAO Jingang DI Tongyu ZHANG Youhu XU Guoxian ZOU Xin ZHANG Xufeng. Improved effective-stress RITSS large-deformation finite element method and its applications in offshore engineering[J]. Journal of Tropical Oceanography, 0, (): 1-.