Simulation of shear fracture in sheet metal forming of thick plates under triaxial stress states

In industrial sheet forming of high strength steel sheets, shear fracture has been reported to occur in narrow die shoulders where the sheet is subject to excessive bending and stretching. For high strength steel plates, which generally show low ductility, the die curvature becomes relatively large...

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Published inJournal of mechanical science and technology Vol. 33; no. 9; pp. 4413 - 4419
Main Authors Kim, Minsoo, Hong, Seokmoo
Format Journal Article
LanguageEnglish
Published Seoul Korean Society of Mechanical Engineers 01.09.2019
Springer Nature B.V
대한기계학회
Subjects
Axial stress
Bend strength
Control
Damage assessment
Dies
Dynamical Systems
Engineering
Finite element analysis
Finite element method
Forming limit diagrams
High strength steel
High strength steels
Industrial and Production Engineering
Mechanical Engineering
Metal forming
Metal sheets
Shear stress
Steel plates
Subroutines
Thick plates
Vibration
기계공학
Shear fracture
Thick plate
High strength material
Triaxiality failure diagram
Online AccessGet full text
ISSN1738-494X
1976-3824
DOI10.1007/s12206-019-0837-5

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Abstract In industrial sheet forming of high strength steel sheets, shear fracture has been reported to occur in narrow die shoulders where the sheet is subject to excessive bending and stretching. For high strength steel plates, which generally show low ductility, the die curvature becomes relatively large for thin sheets, increasing the risk of fracture. Under these circumstances, failure is caused by the shear stresses induced by the high through-thickness stress gradient. Since shear fracture cannot be predicted by the strain-based forming limit diagram, efforts have been made to overcome this limitation and eventually led to the triaxiality failure diagram. In this study, we investigate shear fracture occurring in the forming of thick high strength steel sheets by means of finite element analysis. To do so, we implement the TFD in the commercial finite element analysis software AFDEX through a subroutine. We compare and analyze the predicted damage values obtained for diverse damage models with those obtained via the subroutine so to gain better insight in the theory and background of shear fracture. Finally, the influence of the mesh quality on the predicted stress triaxiality-dependent damage parameter is investigated.
AbstractList In industrial sheet forming of high strength steel sheets, shear fracture has been reported to occur in narrow die shoulders where the sheet is subject to excessive bending and stretching. For high strength steel plates, which generally show low ductility, the die curvature becomes relatively large for thin sheets, increasing the risk of fracture. Under these circumstances, failure is caused by the shear stresses induced by the high through-thickness stress gradient. Since shear fracture cannot be predicted by the strain-based forming limit diagram, efforts have been made to overcome this limitation and eventually led to the triaxiality failure diagram. In this study, we investigate shear fracture occurring in the forming of thick high strength steel sheets by means of finite element analysis. To do so, we implement the TFD in the commercial finite element analysis software AFDEX through a subroutine. We compare and analyze the predicted damage values obtained for diverse damage models with those obtained via the subroutine so to gain better insight in the theory and background of shear fracture. Finally, the influence of the mesh quality on the predicted stress triaxiality-dependent damage parameter is investigated. KCI Citation Count: 1
In industrial sheet forming of high strength steel sheets, shear fracture has been reported to occur in narrow die shoulders where the sheet is subject to excessive bending and stretching. For high strength steel plates, which generally show low ductility, the die curvature becomes relatively large for thin sheets, increasing the risk of fracture. Under these circumstances, failure is caused by the shear stresses induced by the high through-thickness stress gradient. Since shear fracture cannot be predicted by the strain-based forming limit diagram, efforts have been made to overcome this limitation and eventually led to the triaxiality failure diagram. In this study, we investigate shear fracture occurring in the forming of thick high strength steel sheets by means of finite element analysis. To do so, we implement the TFD in the commercial finite element analysis software AFDEX through a subroutine. We compare and analyze the predicted damage values obtained for diverse damage models with those obtained via the subroutine so to gain better insight in the theory and background of shear fracture. Finally, the influence of the mesh quality on the predicted stress triaxiality-dependent damage parameter is investigated.
Author Hong, Seokmoo
Kim, Minsoo
Author_xml – sequence: 1
  givenname: Minsoo
  surname: Kim
  fullname: Kim, Minsoo
  organization: Department of Mechanical Engineering, Sogang University
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  givenname: Seokmoo
  surname: Hong
  fullname: Hong, Seokmoo
  email: smhong@kongju.ac.kr
  organization: Department of Mechanical & Automotive Engineering, Kongju National University
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Cites_doi 10.1016/j.ijmecsci.2016.07.022
10.1115/1.3601204
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Issue 9
Keywords Shear fracture
Thick plate
High strength material
Triaxiality failure diagram
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  start-page: 516
  year: 2016
  ident: 837_CR11
  publication-title: International Journal of Mechanical Sciences
  doi: 10.1016/j.ijmecsci.2016.07.022
– volume: 17
  start-page: 201
  issue: 3
  year: 1969
  ident: 837_CR16
  publication-title: Journal of Mechanics and Physics of Solids
  doi: 10.1016/0022-5096(69)90033-7
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Snippet In industrial sheet forming of high strength steel sheets, shear fracture has been reported to occur in narrow die shoulders where the sheet is subject to...
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SubjectTerms Axial stress
Bend strength
Control
Damage assessment
Dies
Dynamical Systems
Engineering
Finite element analysis
Finite element method
Forming limit diagrams
High strength steel
High strength steels
Industrial and Production Engineering
Mechanical Engineering
Metal forming
Metal sheets
Shear stress
Steel plates
Subroutines
Thick plates
Vibration
기계공학
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Title Simulation of shear fracture in sheet metal forming of thick plates under triaxial stress states
URI https://link.springer.com/article/10.1007/s12206-019-0837-5
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Volume 33
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