Mechanism and numerical analysis of cutting rock and soil by TBM cutting tools

The rock and soil cutting efficiency and reliability of cutting tools are critical factors to tunneling. However, due to its complexity, in-depth researches on some problems existing in rock fragmentation has not been conducted. This paper introduces the mechanism of cutting rock and soil by cutting...

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Published inTunnelling and underground space technology Vol. 81; pp. 428 - 437
Main Authors Li, Guohui, Wang, Wenjin, Jing, Zhijuan, Zuo, Leibin, Wang, Fubin, Wei, Zhen
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.11.2018
Elsevier BV
Subjects
Boring machines
Breakage
Computer simulation
Cutter
Cutting force
Cutting tools
Deformation mechanisms
Disc cutter
Disc cutters
Finite element
Finite element analysis
Finite element method
Mathematical analysis
Mathematical models
Numerical analysis
Penetration depth
Plastic deformation
Reliability aspects
Rock and soil cutting
Rocks
Shear strength
Soil strength
Numerical analysis
Cutter
Rock and soil cutting
Disc cutter
Finite element
Online AccessGet full text
ISSN0886-7798
1878-4364
DOI10.1016/j.tust.2018.08.015

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Abstract The rock and soil cutting efficiency and reliability of cutting tools are critical factors to tunneling. However, due to its complexity, in-depth researches on some problems existing in rock fragmentation has not been conducted. This paper introduces the mechanism of cutting rock and soil by cutting tools. On the basis of this mechanism, it establishes finite element models using ABAQUS software to simulate the cutting processes when a cutter and disc cutter are cutting rock and soil masses. The results show that when the cutting force of a cutter is stronger than the shear strength of soil mass, breakage occurs at the interface between the cutting edge and the soil mass, leading to a successful cutting. When a disc cutter is pressed into a rock mass, with penetration depth increasing, the maximum Mises stress of the rock increases almost linearly, and plastic strain accumulates constantly, resulting in the stress growing as well. The plastic deformation zone in the rock mass is larger than the area compressed by the disc cutter. Along the working direction of the disc cutter, the rock mass is subject to continuous compression, producing plastic deformation until a fragment is broken off from its parent body. In this paper, a finite element model is established to simulate the process of cutting rock and soil by cutting tools, and a method for analyzing the interactions between cutting tools and the rock and soil is provided.
AbstractList The rock and soil cutting efficiency and reliability of cutting tools are critical factors to tunneling. However, due to its complexity, in-depth researches on some problems existing in rock fragmentation has not been conducted. This paper introduces the mechanism of cutting rock and soil by cutting tools. On the basis of this mechanism, it establishes finite element models using ABAQUS software to simulate the cutting processes when a cutter and disc cutter are cutting rock and soil masses. The results show that when the cutting force of a cutter is stronger than the shear strength of soil mass, breakage occurs at the interface between the cutting edge and the soil mass, leading to a successful cutting. When a disc cutter is pressed into a rock mass, with penetration depth increasing, the maximum Mises stress of the rock increases almost linearly, and plastic strain accumulates constantly, resulting in the stress growing as well. The plastic deformation zone in the rock mass is larger than the area compressed by the disc cutter. Along the working direction of the disc cutter, the rock mass is subject to continuous compression, producing plastic deformation until a fragment is broken off from its parent body. In this paper, a finite element model is established to simulate the process of cutting rock and soil by cutting tools, and a method for analyzing the interactions between cutting tools and the rock and soil is provided.
Author Zuo, Leibin
Wang, Fubin
Li, Guohui
Jing, Zhijuan
Wang, Wenjin
Wei, Zhen
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  organization: China Petroleum Pipeline Engineering Corp, Langfang 065000, China
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Keywords Numerical analysis
Cutter
Rock and soil cutting
Disc cutter
Finite element
Language English
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Snippet The rock and soil cutting efficiency and reliability of cutting tools are critical factors to tunneling. However, due to its complexity, in-depth researches on...
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SubjectTerms Boring machines
Breakage
Computer simulation
Cutter
Cutting force
Cutting tools
Deformation mechanisms
Disc cutter
Disc cutters
Finite element
Finite element analysis
Finite element method
Mathematical analysis
Mathematical models
Numerical analysis
Penetration depth
Plastic deformation
Reliability aspects
Rock and soil cutting
Rocks
Shear strength
Soil strength
Title Mechanism and numerical analysis of cutting rock and soil by TBM cutting tools
URI https://dx.doi.org/10.1016/j.tust.2018.08.015
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