岩土力学 ›› 2026, Vol. 47 ›› Issue (4): 1129-1146.doi: 10.16285/j.rsm.2025.00235CSTR: 32223.14.j.rsm.2025.00235

• 基础理论与实验研究 •    下一篇

3D液晶显示打印试样用作岩土力学 岩样模拟物的可行性评价

EVGENII Kozhevnikov1, MIKHAIL Turbakov1, ZAKHAR Ivanov2, EVGENII Riabokon1, ANDREI Golosov3, MIKHAIL Guzev1, EVGENII Gladkikh1, DANIIL Katunin2, PAVEL Kamenev4   

  1. 1.彼尔姆国立科研理工大学 石油与天然气技术系,俄罗斯 彼尔姆 614990; 2.彼尔姆国立科研理工大学 天然气水合物实验室,俄罗斯 彼尔姆 614990; 3.远东联邦大学 强压缩岩石与岩体地质力学与地球动力学研究与教育中心,俄罗斯 符拉迪沃斯托克 690041; 4.俄罗斯科学院远东分院海洋地质与地球物理研究所 地球化学与区域地质实验室,俄罗斯 南萨哈林斯克
  • 收稿日期:2025-04-23 接受日期:2025-10-14 出版日期:2026-04-13 发布日期:2026-04-14
  • 作者简介:EVGENII Kozhevnikov,男,1991年生,博士,副教授,主要从事石油工程方面的研究工作。E-mail: kozhevnikov_evg@mail.ru
  • 基金资助:
    俄罗斯科学基金(No.23-19-00699)

Evaluation of the feasibility of using 3D LCD-printed samples as rock analogs in geomechanical studies

EVGENII Kozhevnikov1, MIKHAIL Turbakov1, ZAKHAR Ivanov2, EVGENII Riabokon1, ANDREI Golosov3, MIKHAIL Guzev1, EVGENII Gladkikh1, DANIIL Katunin2, PAVEL Kamenev4   

  1. 1. Department of Oil and Gas Technologies, Perm National Research Polytechnic University, Perm 614990, Russia; 2. Laboratory of Natural Gas Hydrates, Perm National Research Polytechnic University, Perm 614990, Russia; 3. Research and Educational Centre for Geomechanics and Geodynamics of Highly Compressed Rocks and Rock Masses, Far Eastern Federal University, Vladivostok 690041, Russia; 4. Laboratory of Geochemistry and Regional Geology, Institute of Marine Geology and Geophysics of the Far Eastern Branch of the Russian Academy of Sciences, Yuzhno-Sakhalinsk, Russia
  • Received:2025-04-23 Accepted:2025-10-14 Online:2026-04-13 Published:2026-04-14
  • Supported by:
    This work was supported by the Russian Science Foundation (23-19-00699).

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摘要: 3D打印已成为研究岩石模拟物在各种应力-应变状态下力学行为的重要工具,其优势在于能够高效、可重复地制备大量具有指定特性与均质结构的试样。在众多3D打印方法中,基于液晶显示(liquid crystal display,简称LCD)的打印技术为岩石试样的快速制作提供了一种经济高效且可靠的方法。为探讨采用3D LCD打印技术制备岩石模拟试样在岩土力学研究中的可行性,对3D LCD打印的圆柱形试样进行了弹性波传播测试和单轴压缩试验,以评估其微观结构及其对宏观力学行为的影响。试验结果表明,LCD打印试样表现出良好的弹性均质性,其层间与层内弹性波传播速度基本一致。同时,在单轴加载条件下获得的杨氏模量与无损试验结果高度一致,表明试样在高达20 MPa的加载范围内,弹性性能具有高度均质性。上述发现表明,3D LCD打印试样适用于研究岩石在纯弹性加载条件下的变形与演化过程。此外,借助3D LCD打印技术,可灵活制备具有不同结构特征的岩石试样,为研究特定岩性岩石的力学行为提供了可行路径。为展示该方法的实际应用潜力,进一步通过案例探讨了循环变形对多孔介质中微毛细管导流能力的影响。研究结果为利用3D LCD打印技术深入理解岩石力学行为的演化机制奠定了坚实的基础。

关键词: 3D打印, 单轴压缩, 各向异性, 杨氏模量, 泊松比, 渗透率

Abstract: 3D printing has emerged as a valuable tool for studying the mechanical behavior of rock replicas under various stress−strain states. This technique enables the creation of an unlimited number of replicas with predetermined properties and a homogeneous structure. Among various 3D printing methods, liquid crystal display (LCD)-based printing offers a cost-effective and high-quality approach for rapid prototyping of rock samples. This study investigates the feasibility of using 3D LCD printing to create rock analogs for geomechanical investigations. We evaluate the microstructure of LCD-printed samples and its influence on their elastic and mechanical properties. To assess these properties, we subjected cylindrical samples to elastic wave propagation and uniaxial compression tests. Our results demonstrate that LCD-printed samples exhibit high homogeneity of elastic properties. The velocities of elastic wave propagation across and along the layers are essentially identical, differing only by the error value. Moreover, Young’s moduli obtained under uniaxial loading are in good agreement with non-destructive test results, indicating a high degree of homogeneity in elastic properties up to 20 MPa. These findings suggest that 3D LCD-printed rock analogs are well-suited for investigating processes in rocks under purely elastic loading. Additionally, the technology’s versatility allows for the creation of rock replicas with various features, providing researchers with the ability to study the mechanical behavior of rocks with specific characteristics. We demonstrate the potential of 3D LCD-printed rock analogs through a case study investigating the impact of cyclic deformations on the conductivity of thin capillaries in a porous medium. Our results provide a strong foundation for utilizing 3D LCD printing to advance our understanding of geomechanical processes in rocks.

Key words: 3D printing, uniaxial compression, anisotropy, Young’s modulus, Poisson’s ratio, permeability

中图分类号: TU 435
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