Biomedical Engineering Reference
In-Depth Information
Michael D. Whitfield
(whitfiem@purdue.edu)
is a manufacturing
engineering at Solar Turbine. He was previously a research assistant at Purdue
University conducting research in the area of machinability of difficult to
machine alloys. Michael graduated with a Bachelors' and Master's degree in
Mechanical Engineering Technology at Purdue University.
Chengying Xu
(cxu@mail.ucf.edu)
is Assistant Professor at the University
of Central Florida. Dr. Xu graduated from Purdue University in 2006 with a
Ph. D. in mechanical engineering and is conducting research in the area of
manufacturing processes.
Waqar Ahmed
(wahmed4@uclan.ac.uk)
is chair of nanotechnology and
advanced materials at the University of Central Lancashire. His research
interests are in the area of surface engineering and chemistry.
R
EFERENCES
[1]
M. J. Jackson, G. M. Robinson, L. J. Hyde, K. Kanjakar, and J. Cui,
Design and manufacture of high speed spindles for dry micromachining
applications,
International Journal of Nanomanufacturing
(2007), 1 (5),
641-656.
[2]
Milton C. Shaw,
Metal Cutting Principles
, Oxford Science Publications
- Series on Advanced Manufacturing, Clarendon Press, University of
Oxford, 1996, p.p. 18-46.
[3]
F. P. Bowden and D. Tabor,
The Friction and Lubrication of Solids
,
Oxford Science Publications, Clarendon Press, University of Oxford,
2001, p.p. 73-75, 83-85.
[4]
Doyle, E. D., Horne, J. G., and Tabor, D.,
Frictional interactions
between chip and rake face in continuous chip formation
, Proc. Roy.
Soc., of London, A366, 1979, 173 - 183.
[5]
Jawahir, I. S., and Zhang, J. P.,
An analysis of chip formation, chip curl
and development, and chip breaking in orthogonal machining
, Trans.
North Amer. Manuf. Res. Inst. - Soc. Manuf. Eng
., 23, 1995, 109 - 114.
[6]
Kim, C. J., Bono, M., and Ni, J,
Experimental analysis of chip formation
in micro-milling
,
Trans. North Amer. Manuf. Res. Inst.-Soc. Manuf.
Eng.,
30, 2002, 247 - 254.
[7]
Komanduri, R., Chandrasekaran, N., and Raff, L. M.,
Molecular
dynamics simulation of the nanometric cutting of silicon,
Philosophical
Magazine
, B81, 2001, 1989-2019.