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Review of damage material models for chip formation process modeling
Języki publikacji
Abstrakty
Artykuł prezentuje zbiór modeli materiałowych stosowanych w modelowaniu zniszczenia materiału obrabianego w procesie skrawania. Omówiono modele: shear criterion, modele oparte o analizę stanu naprężeń, model Cockrofta-Lathama, model Brozzo, model Oyane, model Lemaitre, model Rice i Tracey'a oraz model Schifmanna.
This paper presents a set of models used in the modeling of material damage of the workpiece material during the cutting process. Discusses models: shear criterion, models based on the analysis of the state of stress, the Cockroft-Latham model, Brozzo's model, Oyane's model, Lemaitre's model, Rice's and Tracey's model and Schifmann's model.
Słowa kluczowe
Rocznik
Tom
Strony
131--138
Opis fizyczny
Bibliogr. 17 poz.
Twórcy
autor
- Katedra Budowy Maszyn, Politechnika Śląska w Gliwicach
Bibliografia
- 1. Mieszczak W.: Współczesne techniki numerycznego modelowania efektów zniszczenia materiału w trakcie tworzenia wióra - wybrane zagadnienia. Prace Naukowe Katedry Budowy Maszyn. Wydawnictwo Politechniki Śląskiej w Gliwicach 2006.
- 2. Abaqus Documentation v. 6.8.
- 3. Sangkee Min, David A. Dornfeld, Jinsoo Kim, and Borlin Shyu: Finite element modeling of burr formation in metal cutting. Machining Science and Technology, 5(3), 307-322 (2001), Y. Zhu, H.A. Kishawy: Influence of alumina particles on the mechanics of machining metal matrix composites. International Journal of Machine Tools & Manufacture 45 (2005) 389-398.
- 4. Liu C.R., Guo Y.B.: Finite element analysis of the effect of sequential cuts and tool-chip friction on residual stresses in a machined layer. International Journal of Mechanical Sciences 42 (2000) 1069-1086.
- 5. Liangchi Zhang: On the separation criteria in the simulation of orthogonal metal cutting using the finite element method. Journal of Materials Processing Technology 89-90 (1999) 273-278.
- 6. Chandrakanth Shet, Xiaomin Deng: Finite element analysis of the orthogonal metal cutting process. Journal of Materials Processing Technology 105 (2000) 95-109.
- 7. Lorentzon L, Jarvstrat N., Josefson B.L.: Modelling chip formation of alloy 718. Journal of Materials Processing Technology 209 (2009) 4645-4653.
- 8. Hubert c., Dubar M., Dubois A., Dubar L.: 3D modeling of edge trimming process. Int J Mater Form (2009) Vol. 2 Suppl 1:837-840.
- 9. Jiang Hua, Rajiv Shivpuri: Prediction of chip morphology and segmentation during the machining of titanium alloys. Journal of Materials Processing Technology 150 (2004) 124-133.
- 10. WANG Zhong-jin, LIU Jian-guang, LI Yi: Fracture prediction in non-isothermal viscous pressure bulging of aluminum alloy sheet using ductile fracture criterion. J. Cent. South Univ. Technol. (2010) 17: 449-453.
- 11. Gouveia B.P.P.A., Rodrigues J.M.C., Martins P.A.F.: Ductile fracture in metalworking: experimental and theoretical research. Journal of Materials Processing Technology 101 (2000) 52-63.
- 12. Rosa P.A.R., Kolednik O., Martins P.A.F., Atkins A.G.: The transient beginning to machining and the transition to steady-state cutting. International Journal of Machine Tools & Manufacture 47 (2007) 1904-1915.
- 13. Owen D.R.J., Vaz M. Jr.: Computational techniques applied to high-speed machining under adiabatic strain localization condition. Computational Methods Applied Engineering 171 (1999) 445-461.
- 14. Dokumentacja programu MSC. Marc 2011.
- 15. Horstemeyer M.F., Lathrop L, Gokhale A.M., Dighe M.: Modeling stress state dependent damage evolution in a cast Al-Si-Mg aluminum alloy. Theoretical and Applied Fracture Mechanics 33 (2000) 31-47.
- 16. Brokken D., Brekelmans W.A.M., Baaijens F.P.T.: Numerical modelling of the metal blanking process. Journal of Materials Processing Technology 83 (1998) 192-199.
- 17. XIE Xiao-Iong, ZHAO Zhen, YU Song, GU Sheng-guang, CHEN Jun, LI Ming-hui: Mechanism of localized severe plastic deformation and damage fracture in fine-blanking using mixed displacement and pressure FEM. Trans. Nonferrous Met. SOC. China 16(2006) 1021-1028.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-03aba44d-3593-4af5-b562-2cb7a40578a8