Fast Finite Element Modeling Based on Geological Data of 3D Visualization Platform

ZHENG Liangyu

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Fast Finite Element Modeling Based on Geological Data of 3D Visualization Platform

更新时间：2026-01-04

- Fast Finite Element Modeling Based on Geological Data of 3D Visualization Platform
- Vol. 43, Issue 2, Pages: 334-341(2023)
- 作者机构：
  
  北京交通大学土木建筑工程学院,北京,100044
- 作者简介：
- 基金信息：
- DOI：
  CLC： P642
- Published：2023
- 稿件说明：
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郑良玉,李佳,陈曦,陈淼,穆树怀.基于三维地勘数据平台的快速有限元建模方法∗[J].防灾减灾工程学报,2023,43(2):334-341
DOI：

郑良玉,李佳,陈曦,陈淼,穆树怀.基于三维地勘数据平台的快速有限元建模方法∗[J].防灾减灾工程学报,2023,43(2):334-341 DOI：

摘要

随着计算机可视化技术和数值分析方法的快速发展，三维地质建模和有限元技术在岩土工程和城市防灾减灾领域应用越来越广泛。但目前对两者间有效衔接的研究还明显不足，导致了许多重复性工作和较低的工作效率。针对这一问题，提出了一种基于三维地勘数据平台的快速有限元建模方法。利用 Python 语言及其 Mayavi 库开发了基于有限个钻孔的可视化平台，应用两种互补的空间插值法—反距离加权插值法(IDW)和克里格空间插值法(Kriging)实现地层分界面模拟，并进行层间拓扑关系分析优化。重点引入虚拟钻孔概念，提出将三维地层模型截取地块信息转化为有限元软件内置命令文件的衔接方法。以 Plaxis 3D 为例，实现同一大型场地不同地块的快速有限元建模和分析，为未来大规模岩土工程建设和城市防灾减灾的相关分析提供借鉴。

Abstract

With rapid developments in computer visualization and numerical analysis，3D geological modeling and finite element analysis have been widely applied to geotechnical engineering. The logical connection between 3D geological modeling and finite element modeling， however， hasn’t been ex-ploited efficiently， leading to a high workload and low modeling efficiency. Towards the problem， a fast finite element modeling method based on 3D geological survey data platform was developed. Based on limited boreholes and non-uniform data of boreholes， a visualization platform for strata mod-eling was established using Python programming language. In more detail， the inverse distance weighted (IDW) interpolation method and the Kriging method were employed to identify the interfac-es of soil layers， and then the topological relations between these interfaces were analyzed and opti-mized. With the aid of the concept of virtual boreholes， a data extraction method was proposed to con-vert the regional data of the 3D stratigraphic model into executable files of different commercial finite element software. Taking Plaxis-3D as an example， rapid finite element modeling and analysis for dif-ferent partitions of the same large-scale site were accomplished， illustrating that the presented finite el-ement modeling technique is promising and shall be a future trend in disaster prevention and mitigation of geotechnical engineering.

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李青元,张洛宜,曹代勇,等.三维地质建模的用途、现状、问题、趋势与建议[J].地质与勘探,2016,52(4):759-767.Li Q Y,Zhang L Y,Cao D Y,et al.Usage,status,problems,trends and suggestions of 3D geological mod?eling[J].Geology and Exploration,2016,52(4):759-767.(in Chinese)

孙文洁,杨文凯,王子超,等.三维数值建模在地质工程综合设计中的应用[J].煤炭工程,2019,51(11):120-122.Sun W J,Yang W K,Wang Z C,et al.Application ofthree-dimensional numerical modeling in simulation andcomprehensive design of geological engineering[J].Coal Engineering,2019,51(11):120-122.(in Chi?nese)

范文遥,曹梦雪,路来君.基于GOCAD软件的三维地质建模可视化过程[J].科学技术与工程,2020,20(24):9771-9778.Fan W Y,Cao M X,Lu L J.Visualization process of3D geological modeling based on GOCAD software[J].Science Technology and Engineering,2020,20(24):9771-9778.(in Chinese)

许珂,徐亚杏.基于 MapGIS-K9 软件的城市三维地质建模方法探讨——以武汉市为例[J].华南地质与矿产,2018,34(3):244-252.Xu K,Xu Y X.Discussion on urban three-dimensionalgeological modeling method based on MapGIS-K9 soft?ware:a case study of Wuhan[J].Geology and MineralResources of South China,2018,34(3):244-252.(inChinese)

胡田飞,刘建坤.复杂边坡三维地质建模技术及稳定性分析方法[J].防灾减灾工程学报,2016,36(4):580-587.Hu T F,Liu J K.Three-dimensional geological model?ing technology and stability analysis method of complexslope[J].Journal of Disaster Prevention and MitigationEngineering,2016,36(4):580-587.(in Chinese)

黄仁杰,余再富,李元松,等.太平隧道大型溶洞的三维地质建模方法研究[J].路基工程,2020(1):170-173.Huang R J,Yu Z F,Li Y S,et al.Study on three-di?mensional geological modeling method of large karstcaves in Taiping Tunnel[J].Subgrade Engineering,2020(1):170-173.(in Chinese)

刘乐,杨智.基于钻孔数据的三维地质建模空间插值方法的对比研究[J].能源技术与管理,2019,44(3):162-164.Liu L,Yang Z.Comparison of spatial interpolationmethods for 3d geological modeling based on boreholedata[J].Energy Technology and Management,2019,44(3):162-164.(in Chinese)

刘晓磊,赵志峰,周玉明,等.滨海地基土层的空间插值分析[J].工程地质学报,2018,26(3):794-801.Liu X L,Zhao Z F,Zhou Y M,et al.Spatial interpola?tion analysis of coastal foundation soil[J].Journal of En?gineering Geology,2018,26(3):794-801.(in Chi?nese)

李佳赫.基于钻孔数据的多层DEM矿体模型建立与研究[J].测绘与空间地理信息,2019,42(7):221-225.Li J H.Study and establishment of muiti DEM miningmodel based on drilling data[J].Geomatics & SpatialInformation Technology,2019,42(7):221-225.(inChinese)

李璐,刘新根,吴蔚博,等.基于钻孔数据的三维地层建模关键技术[J].岩土力学,2018,39(3):1056-1062.Li L,Liu X G,Wu W B,et al.Key technology of 3Dstratum modelling based on borehole data[J].Rock andSoil Mechanics,2018,39(3):1056-1062.(in Chinese)

刘珊珊.理正勘察三维地质软件对工程地质三维建模的实现[J].建筑工程技术与设计,2018,32:160.Liu S S.Realization of three-dimensional modeling of en?gineering geology by three-dimensional geological soft?ware of Lizheng prospecting[J].Architectural Engineer?ing Technology Design,2018,32:160.(in Chinese)

赵文,段魁,王彦东,等.基于 Matlab,Surfer 平台的FLAC 3D 复杂三维地质建模研究[J].工程地质学报,2016,24(增 1):208-213.Zhao W,Duan K,Wang Y D,et al.Study on complexThree-dimensional geological modeling of FLAC3Dbased on matlab and surfer platform[J].Journal of Engi?neering Geology,2016,24(Sup1):208-213.(in Chi?nese)

于升才.基于 PLAXIS 3D 技术的深基坑开挖对既有地铁结构影响分析[J].路基工程,2018(3):224-228.Yu S C.The influence analysis of deep foundation pitexcavation on the existing subway structure based onPLAXIS 3D technology[J].Subgrade Engineering,2018(3):224-228.(in Chinese)

王飞球,张一鸣,王浩,等.邻近高铁线全套管灌注桩施工的微扰动分析[J].防灾减灾工程学报,2019,39(5):809-816.Wang F Q,Zhang Y M,Wang H,et al.Analysis ofmicro-disturbed construction of benoto pile on adjacenthigh-speed railway bridge[J].Journal of Disaster Pre?vention and Mitigation Engineering,2019,39(5):809-816.(in Chinese)

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