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IJSTR >> Volume 9 - Issue 10, October 2020 Edition



International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616



Drilling Modelling Using Computer Simulation

[Full Text]

 

AUTHOR(S)

Nguyen Thi Anh, Tran Thanh Tung

 

KEYWORDS

Finite element, Drilling, LS-DYNA, Simulation

 

ABSTRACT

This paper presents an approach method to construct of finite element model of drilling. The purpose of this study was to proved the capble of computer simulation method through research the drilling. In this paper a drilling model was carried out using the Ls-Dyna software base on finite element technique. The simulation results will be compared with experimental test . The result of the model assures the exactly of proposed method and proved that numerical method is a practical approach to drilling problem.

 

REFERENCES

[1] Jūrėnas, V., Skiedraitė, I., Bubulis, A., Graževičiūtė, J., Ostaševičius, V: "Tool JAW with ultrasonic transducer", Lithuanian patent No. LT 5586 B, 2007
[2] Galloway DF. Some experiments on the influence of various factors on drill performance. Trans ASME 1957;79:191–237.
[3] C.C. Tsao. Experimental study of drilling composite materials with step-core drill. Materials and Design 29 (2008) 1740–1744
[4] Hocheng H, Tsao CC. Effects of special drill bits on drilling-induced delamination of composite materials. Int J Mach Tools Manuf 2006;46: 1403–16.
[5] Piquet R, Ferret B, Lachaud F, Swider P. Experimental analysis of drilling damage in thin carbon/epoxy plate using special drills. Compos Part A 2000;31(10):1107–15
[6] DiPaolo G, Kapoor SG, DeVor RE. An experimental investigation of the crack growth phenomenon for drilling of fiber-reinforced composite materials. Trans ASME J Eng Ind 1996;118:104–10
[7] Ding, H., Shin, Y. C: “Multi-physics modeling and simulations of surface microstructure alterationin hard turning”, Journal of Materials Processing Technology, 2013, vol. 213, no. 6, p. 877–886.
[8] Bagci, E: “3-D numerical analysis of orthogonal cutting process via mesh-free method”, International Journal of the Physical Sciences, 2011, vol. 6, no. 6, p. 1267–1282.
[9] Morten Villumsen, F., Torben Fauerholdt, G: “Simulation of metal cutting using Smooth Particle Hydrodynamics”, LS-DYNA Anwenderforum, Bamberg 2008, p. 1–20.
[10] Schewer, L: “Aluminum plate perforation: A comparative case study using Lagrange with Erosion, Multi-material ALE, and Smooth Particle Hydrodynamics”, 7th European LS-DYNA Conference, p. 1-28.
[11] Limido, J., Espinosa, C., Salaün, M., Lacome J. L: „SPH method applied to high speed cutting modelling“, Int. J. Mech. Sci., vol. 49(7), 2007, p. 898–908.
[12] Limido J.: “Predictive modelling of high speed machining effect on the fatigue life of aeronautical parts”, Theses, MEGEP, p.228.
[13] https://www.industr.com/en/enhancing-machining-performance-through-drill-geometry-2336295
[14] LS-DYNA Keyword user’s manual. Livermore Software Technology Corporation, 2007.
[15] LS-DYNA theoretical manual. Livermore Software Technology Corporation, Livermore, 2006.