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62 Cătălin Fetecău et al. The value of tangential force increases when feed rate increase as shows in Fig. no. 7. F [N] 1400 1200 1000 800 600 400 200 0 0 0.1 0.2 0.3 0.4 0.5 0.6 v1 v2 v3 f [mm/rev] Fig. 7 – The effect of feed rate on cutting force. For the simulation made, the average values of temperature of cutting tool are presented in Table 4. Table 4 The values of the temperature T, ºC Feed, f, Cutting speed, v, m/min mm/rev 314,16 157,08 78,54 0.083 571.408 480.065 427.476 0.208 699.709 589.149 496.942 0.416 714.676 611.191 699.709 0.5 729.953 622.045 729.953 Fig. 8 – The temperature distribution in the cutting zone. In the FEM software AdvantEdge TM , the Johnson-Cook constitutive model were used to predict the thermal behaviour in longitudinal turning process [1]. This software allows the temperature distribution, cutting forces and von Misses stress to be predicted to appropriate measurements [2].
Bul. Inst. Polit. Iaşi, t. LVI (LX), f. 2, 2010 63 With AdvantEdge TM is possible to determine optimum machining parameters with lower costs and in short time without experimental processes [3]. 4. Conclusion 1. This paper presents a study on numerical simulation of turning process using finite element analysis for AISI 1060 material. Simulation was done using AdvantEdge TM program. Based on numerical simulations we determine the influence of cutting parameters (depth of cut, feed rate and cutting speed ) on cutting force, von Mises stress and temperature from cutting zone. 2. Based on numerical simulations to determine the size variation of cutting force and temperature parameters based on cutting regime. 3. It was also determined variation von Mises stress across-chip track-and to investigate the formation of the chips. 4. Future work will be as based on results of the numerical simulation will to make the experiments and will compare the results with those of simulation. Acknowledgements. The work of Drd. Daniel-Viorel Vlad was supported by Project SOP HRD – EFICIENT 61445". Received: March 20, 2010 ”Dunarea de Jos” University of Galati, Department of Machine Manyfacturing Galati, Romania, e-mail: catalin.fetecau@ugal.ro R E F E R E N C E S 1. G r z e s i k W., N i e s l o n y P., FEM–based thermal modelling of the cutting process using power law temperature dependent concept. Archives of Materials Science and Engineering, 29, 2 (2008), pp. 105-108. 2. Ő z e l T., Modeling of hard part machining: effect of insert edge preparation in CBN cutting tool. Journal of Materials Processing Technology, 141, (2003) pp. 284-293. 3. D a v i m J. P., F a r i a P., M a r a n h ã o C., C a r l o s C. A., Finite element simulation of precision machining on AISI 1045, 2008, 5º Congresso Luso- Moçambicano de Engenharia, Maputo, Moçambique, pp.1-7(ref:25A003). 4. D a v i m J. P., M a r a n h ã o C. A study of plastic strain and plastic strain rate in machining of steel AISI 1045 using FEM analysis, Material and Design., 30, 2009, pp. 160-165.
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BULETINUL INSTITUTULUI POLITEHNIC D
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