XZ is an associate professor in MNMT at Tianjin University His r

XZ is an associate professor in MNMT at Tianjin University. His research interests include ultra-precision machining and metrology, freeform optics

manufacture and applications. FF is a professor in MNMT, working in the areas of optical freeform manufacturing, micro/nano machining, ultra-precision machining Bafilomycin A1 supplier and metrology. He is the editor-in-chief of the International Journal of Nanomanufacturing, the president of the International Society for Nanomanufacturing, and a fellow of the International Academy for Production Engineering. YW is a professor of Physics at Nankai University. Current research interests include surfaced enhanced Raman spectra, light scattering of nanoparticles and first principles calculation of materials. MF is working at Nankai University as a technician selleck screening library with the research objective in investigating the electronic, magnetic, and thermodynamic properties of materials using first-principles calculation, potential

model, and Monte Carlo simulation. WT is studying as a masters student in optics at Nankai University. Acknowledgements The authors appreciate the supports of the National Natural Science Foundation of China (grant no. 90923038), the National Basic Research Program of China (973 Program, grant no. 2011CB706703), and the ‘111’ Project by the State Administration of Foreign Experts Affairs and the Ministry of Education of China (grant no. B07014). References 1. Shimada S, Ikawa N, Tanaka H, Ohmori G, Uchikoshi J: Feasibility study on ultimate accuracy in microcutting using molecular dynamics simulation. Ann CIRP 1993, 42:117–120.CrossRef 2. Shimada S, Ikawa N, Tanaka H, Uchikoshi J: Structure of micromachined surface simulated by molecular dynamics Axenfeld syndrome analysis. Ann CIRP 1994, 43:51–54.CrossRef 3. Shimada S, Ikawa N, Inamura T, click here Takezawa N: Brittle-ductile transition phenomena in microindentation and micromachining. Ann CIRP 1995, 44:523–525.CrossRef 4. Inamura T, Shimada S, Takezawa N, Nakahara N: Brittle-ductile

transition phenomena observer in computer simulations of machining defect-free monocrystalline silicon. Ann CIRP 1997, 46:31–33.CrossRef 5. Komanduri R, Chandrasekaran N, Raff LM: Orientation effects in nanometric cutting of single crystal materials: an MD simulation approach. Ann CIRP 1999, 48:296–302.CrossRef 6. Komanduri R, Chandrasekaran N, Raff LM: MD simulation of nanometric cutting of single crystal aluminum-effect of crystal orientation and direction of cutting. Wear 2000, 242:60–88.CrossRef 7. Komanduri R, Chandrasekaran N, Raff LM: Molecular dynamics simulation of the nanometric cutting of silicon. Philos Mag B 2001, 81:1989–2019.CrossRef 8. Fang FZ, Venkatesh VC: Diamond cutting of silicon with nanometric finish. Ann CIRP 1998, 47:45–49.CrossRef 9. Fang FZ, Zhang GX: An experimental study of edge radius effect on cutting single crystal silicon. Int J Adv Manuf Tech 2003, 22:703–707.CrossRef 10.

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