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Konferencja mechaniki pękania / sympozjum (X ; 11-14.09.2005 ; Opole-Wisła, Polska)
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Abstrakty
Cleavage fracture in ferritic steels is often initiated by the cracking of a brittle carbide which generates a rapidly propagating micro-crack. If the micro-crack is not arrested by the surrounding ferrite, failure of the component may occur. Examinations show that the arrest of the crack occurs frequently at the grain boundary of ferrite grains. The influence of the grain boundary as an arrest mechanism for cleavage crack is examined. The separation of the crack faces is described using cohesive zone model.
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Tom
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203--209
Opis fizyczny
Bibliogr. 15 poz., rys., wykr.
Twórcy
Bibliografia
- [1] MCMAHON C.J., COHEN M. (1965): Initiation in polycrystalline iron. Acta Metallurgica 13, 591-604.
- [2] GURLAND J. (1972): Observations on the fracture of cementite particles in a spheroidized 1.05%C steel deformed at room temperature. Acta Metallurgica 20, 735-741.
- [3] HAHN G.T. (1984): The influence of microstructure on brittle fracture toughness. Metallurgical Transactions 15A, 947-959.
- [4] LEE S., KIM S., HWANG B., LEE B.S., LEE CG (2002): Effect of carbide distribution on the fracture toughness in the transition temperature region on an SA 5008 steel. Acta Materialia 50, 4755-4762.
- [5] KROON M., FALESKOG J. (2003): Influence of carbide/ferrite interface and carbide shape on cleavage fracture initiation in ferritic steels. Report 343, KTH Solid Mechanics, Stockholm Sweden.
- [6] KROON M., FALESKOG J. (2005): Micromechanics of cleavage fracture initiation in ferritic steels by carbide cracking. Journal of the Mechanics and Physics of Solids 53, 171-196.
- [7] ANDERSON T., STIENSTRA D., DODDS Jr.R.H. (1994): A theoretical framework for addressing fracture in the ductile-brittle transition region In: Fracture Mechanics 24:th volume, ASTM STP 1207, Eds. J.D. Landes, D.E. McCabe and J.A.M. Boulet. American Society for Testing of Materials, Philadelphia pp. 186-214.
- [8] GELL M., SMITH E. (1967): The propagation of cracks through grain boundaries in polycrystalline 3% silicon iron. Acta Metallurgica 15, 253-258.
- [9] QIAO Y., ARGON A.S. (2003): Cleavage crack-growth-resistance of grain boundaries in polycrystalline Fe-2%Si alloy: experiments and modeling. Mechanics of Materials 35, 129-154.
- {10] QIAO Y., ARGON A.S. (2003): Cleavage cracking resistance of high angle grain boundaries in Fe-3%Si alloy. Mechanics of Materials 35, 313-331.
- [11] QIAO Y., ARGON A.S. (2003): Brittle-to-ductile fracture transition in Fe-3wt.%Si single crystals by thermal crack arrest. Mechanics of Materials 35, 903-912.
- [12] QIAO Y. (2003): Modeling of resistance curve of high-angle grain boundary in Fe-3wt.%Si alloy. Material Science & Engineering A361, 350-357.
- [13} QIAO Y., KONG X. (2004): An energy analysis of the grain boundary behavior in cleavage cracking in FE-3wt.%Si alloy. Material Letters 58, ;156-3160.
- [14] SMITH G.E., CROCKER A.G., FLEWITT P.E.J. (2004): Brittle fracture of polycrystals: development of a new three-dimensional model. In Proceedings (on CD) of EFC15: Advanced Fracture Mechanics and Life and Safety Assessments, August 11-13, 2004 KTH, Stockholm.
- [15] GULLERUD A., KOPPENHOEFER K, ROY A., ROYCHOWDHURY WALTERS M., BICHON B., COCHRAN K., DODDS R.H. (2004): WARP3D - Release 15: 3-D Dynamic Nonlinear Fracture Analysis of Solids Using Parallel Computers and Workstations, Structural Research Series, (SRS) 607, UILU-ENG-95-2012, U. 111., Urbana-Champaign.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOF-0001-0024