Prediction of High Speed Machining Cutting Forces Using a Variable Flow Stress Machining Theory

摘要:

文章预览

A variable flow stress machining theory is described where it is used to predict the cutting forces associated with High Speed Machining (HSM) process. The predicted and experimental results for different materials and different cutting conditions are presented and compared and it is shown that the theory developed is capable of predicting the cutting forces and the other parameters associated with the HSM process. The extension of the theory to HSM has been successful within the machining conditions presented here in this paper. Further work is necessary to improve this theory further.

信息:

期刊:

编辑:

Chengyong Wang, Ning He, Ming Chen and Chuanzhen Huang

页数:

128-133

DOI:

10.4028/www.scientific.net/AMR.188.128

引用:

P. Mathew "Prediction of High Speed Machining Cutting Forces Using a Variable Flow Stress Machining Theory", Advanced Materials Research, Vol. 188, pp. 128-133, 2011

上线时间:

March 2011

作者:

输出:

价格:

$35.00

[1] Information on http: /aluminium. matter. org. uk/content/html/ENG/default. asp?catid=147&pageid=2144416564 accessed 4 July (2010).

[2] P. L. B. Oxley, Predicting the influence of ultra high cutting speeds on machining, Proc Int Conf Prec Eng, Taipei, Taiwan ROC, November 1997, pp.19-24.

[3] P. Mathew and P.L.B. Oxley, Predicting the effects of very high cutting speeds on cutting forces, etc, CIRP Annals, Vol 31/1, 1982, pp.49-52.

DOI: 10.1016/s0007-8506(07)63267-3

[4] J. A. Arsecularatne,B. Kristyanto, and P. Mathew, An Investigation of the High Speed Machining Process using a Variable Flow Stress Machining Theory, Int J Mach Sci and Tech (Marcel Dekker), Vol 8, No 2, 2004, pp.211-233.

DOI: 10.1081/lmst-200028736

[5] P. L. B. Oxley, Mechanics of Machining: An Analytical Approach to Assessing Machinability, (Ellis Horwood, Chichester, UK, 1989).

[6] J. A. Arsecularatne and P. Mathew, The Oxley Modelling Approach – its Applications and Future Directions, Int. J. Mach Sci & Tech, Vol 4, No 3, 2000, pp.363-397.

[7] M. E. Merchant, , Basic Mechanics of Metal Cutting Process, J. Appl. Mech., Vol. 11, 1944, pp. A168-A175.

[8] C. W. MacGregor, J. C. Fisher, A Velocity-Modified Temperature for the Plastic Flow of Metals, J. Appl. Mech., Vol. 13, 1946, pp. A11-A16.

[9] B. Krisyanto, P. Mathew and J. A. Arsecularatne, Determination of Forces in High Speed Machining (HSM) from Machining Tests and a Variable Flow Stress Machining Theory in Metal Cutting and High Speed Machining edited by D Dudzinski, A Molinari and H. Schulz Kluwer Academic/Plenum Publishers, NY (2002).

DOI: 10.4028/www.scientific.net/amr.188.128

[10] Oyane, M., Takashima, F., Osakada, K., Tanaka, H., The Behaviour of Some Steels Under Dynamic Compression, Proc 10th Japan Congress on Testing Materials, 1967, 75-76.

[11] J. A. Arsecularatne, B. Kristyanto and P. Mathew, An Investigation of the High Speed Machining Process using a Variable Flow Stress Machining Theory, Int J Mach Sci and Tech (Marcel Dekker), Vol 8, No 2, 2004, pp.211-233.

DOI: 10.1081/lmst-200028736

为了查看相关信息, 需 Login.