References
[1] Biswas I. Fundamental studies on wheel wear in ELID grinding. PhD Dissertation, National University of Singapore, Singapore; 2009.
[2] Kalpakjian S, Schmid SR. Manufacturing engineering and technology. 5th ed Upper Saddle River (NJ): Pearson Prentice Hall; 2005.
[3] Rowe WB. Principles of modern grinding technology. Elsevier, William Andrew, Applied Science Publishers; 2009.
[4] Brunner G. Grinding with microcrystalline alumina. Dr. Eng Dissertation, University of Hannover, Germany; 1998.
[5] Whitby D. Selecting the correct grinding wheels. Tribology and lubrication technology TLT, The challenge of antimicrobial pesticides, an STLE publication; 2012.
[6] ZuRen C, Zhao SW, Wu ZY, Jin WD, Jin XM. Electrolytic in-process dressing (ELID) and super-precision grinding for the ring raceway of ball bearings. Key Eng Mater. 2004;259/260:268 272.
[7] N. Itoh, Ohmori H, Kasai T, Karaki-DT. A study of smooth surface finish by ELID-lap grinding and metal-resin bonded wheel. The third international conference on abrasive technology (ABTEC’99). Abrasive technology: current development and applications I, World Scientific 1999. p. 135–40.
[8] Kibbe RR, Meyer RO, Neely JE, White WT. Machine tool practices. 9th ed Prentice Hall PTR, Pearson; 2009.
[9] Inasaki I. Grinding of hard and brittle materials. Ann CIRP Manuf Technol. 1987;36(2):463 471.
[10] Marinescu ID. Handbook of Advanced Ceramics Machining. CRC Press, Taylor & Francis Group; 2007.
[11] Askeland DR, Fulay PP, Wright WJ. The Science and Engineering of Materials. 6th ed Cengage learning, course technology; 2010.
[12] Zhang Bi, Zhang XL, Tokura H, Yoshikawa M. Grinding induced damage in ceramics. J Mater Process Technol. 2003;132:353 364.
[13] Pei ZJ, Billingsley SR, Miura S. Grinding induced subsurface cracks in silicon wafers. Int J Mach Tool Manu Des Res Appl. 1999;39:1103 1116.
[14] Zhong ZW. Ductile or Partial Ductile Mode Machining of Brittle Materials. Int J Adv Manuf Technol. 2003;21:579 585.
[15] Zhong Z, Venkatesh VC. Semi-ductile grinding and polishing of ophthalmic aspherics and spherics. Ann ClRP Manuf Technol. 1995;44(1):339 342.
[16] Bandyopadhyaya BP, Ohmori H. The effect of ELID grinding on the flexural strength of silicon nitride. Int J Mach Tool Manu. 1999;39:839 853.
[17] Zhang FH, Qiu ZJ, Kang GW, Yuan ZJ, Yang YS, Shi XK. High efficiency ELID grinding of garnet ferrite. J Mater Process Technol. 2002;129:41 44.
[18] Bandyopadhyaya BP, Ohmori H. The effect of ELID grinding on the flexural strength of silicon nitride. Int J Mach Tool Manu. 1999;39:839 853.
[19] Fathima K, Kumar AS, Rahman M, Lim HS. A study on wear mechanism and wear reduction strategies in grinding wheels used for ELID grinding. Wear. 2003;254:1247 1255.
[20] Zeng X, Gan YX. A review of grinding technologies for glass machining. Int J Abrasive Technol. 2011;4(3):223 239.
[21] Deliwala RJ. Grinding with lapping kinematics. MSc. Thesis. The University of Toledo, Toledo; 2002.
[22] Zhang B, Yang F, Wang J, Zhu Z, Monahan R. Stock removal rate and workpiece strength in multi-pass grinding of ceramics. J Mater Process Technol. 2000;104:178 184.
[23] Marinescu ID, Rowe WB, Dimitrov B, Inasaki I. Tribology of abrasive machining processes. New York: William Andrew Publishing Norwich; 2005.
[24] Agarwal S, Rao PV. Experimental investigation of surface/subsurface damage formation and material removal mechanisms in SiC grinding. Int J Mach Tool Manu Des Res Appl. 2008;48:698 710.
[25] XU HHK, Jahanmir S. Microfracture and material removal in scratching of alumina. J Mater Sci. 1995;30:2235 2247.
[26] Heo JS, Koo Y, Choi SS. Grinding characteristics of conventional and ELID methods in difficult-to-Cut and hardened brittle materials. J Mater Process Technol. 2004;155-156:1196 1200.
[27] Chidambaram S, Pei ZJ, Kassir S. Fine grinding of silicon wafers: a mathematical model for grinding marks. Int J Mach Tool Manu Des Res Appl. 2003;43:1595 1602.
[28] Qian J, Ohmori H, Lin W. Internal mirror grinding with a metal/metal–resin bonded abrasive wheel. Int J Mach Tool Manu. 2001;41:193 208.
[29] Kibbe RR, Meyer RO, Neely JE, White WT. Machine tool practices. 9th ed Prentice Hall PTR, Pearson; 2009.
[30] Deliwala RJ. Grinding with lapping kinematics. MSc. Thesis. The University of Toledo, Toledo; 2002.
[31] Kang GW, Zhang FH, Dong S. Precision finishing combined with ELID and MRF. Mater Sci Forum. 2004;471/472:317 320.
[32] Fathima Patham K. Modeling and analysis of electrolytic in-process dressing (ELID) and grinding. PhD Dissertation, National University of Singapore, Singapore; 2004.
[33] Barylski A, Deja M. Finishing of ceramics in a single-disk lapping machine configuration. Solid State Phenomena. 2010;165:237 243.
[34] Shaw MC. Metal cutting principles. Oxford: Series on advanced manufacturing, vol. 3 Clarendon Press, Oxford University Press incorporated; 1997.
[35] Lim HS, Fathima K, Kumar AS, Rahman M. A fundamental study on the mechanism of electrolytic in-process dressing (ELID) grinding. Int J Mach Tool Manu Des Res Appl. 2002;42/8:935 943.
[36] Bandyopadhyay BP, Ohmori H, Takahashi I. Ductile regime mirror finish grinding of ceramics with electrolytic in-process dressing (ELID) Grinding. Mater Manuf Process. 1996;11(5):789 801.
[37] Katahira K, Watanabe Y, Ohmori H, Kato T. ELID grinding and tribological characteristics of TiAlN film. Int J Mach Tool Manu Des Res Appl. 2002;42:1307 1313.
[38] Moriyasu S, Yamagata Y, Ohmori H. Aspherical ELID grinding technique for X-ray mirrors. Opt Soc Am OSA Fabric Test Aspheres. 1999;24:29 31.
[39] Stephenson DJ, Sun X, Zervos C. A study on ELID ultra precision grinding of optical glass with acoustic emission. Int J Mach Tool Manu. 2006;46:1053 1063.
[40] Corbett J, Morantz P, Stephenson DJ, Read RF. An advanced ultraprecision face grinding machine. Int J Adv Manuf Technol. 2002;20:639 648.
[41] Itoh N, Ohmori H. Grinding characteristics of hard and brittle materials by fine grain apping wheels with ELID. J Mater Process Technol. 1996;62:315 320.
[42] Bandyopadhyaya BP, Ohmori H. The effect of ELID grinding on the flexural strength of silicon nitride. Int J Mach Tool Manu. 1999;39:839 853.
[43] Guo J, Ohmori H, Uehara Y, Watanabe Y, Asami M. Study on the ELID grinding forces of ceramics and steels, towards synthesis of micro-/nano-systems. The 11th international conference of precision engineering (ICPE). 2007; p. 249–350.
[44] Mizutani M, Komotori J, Nagata J, Katahira K, Ohmori H. Surface finishing for biomaterials: application of the ELID grinding method. Int J Modern Phys. 2003;17(8/9):1395 1400.
[45] Saleh T, Rahman MS, Lim HS, Rahman M. Development and performance evaluation of an ultra precision ELID grinding machine. J Mater Process Technol. 2007;192-193:287 291.
[46] Shanawaz AM, Sundaram S, Pillai UTS, Aurtherson PB. Characteristics of electrolysis in-process dressing grinding of Al/SiCp composite materials. J Composite Mater. 2011;45(3):357 367.
[47] Islam MM, Kumar AS, Balakumar S, Lim HS, Rahman M. Characterization of ELID grinding process for machining silicon wafers. J Mater Process Technol. 2008;198:281 290.
[48] Stephenson DJ, Veselovac D, Manley S, Corbett J. Ultra-precision grinding of hard steels. Precision engineering. J Int Soc Precision Eng Nanotechnol. 2001;25:336 345.
[49] Pavel R, Pavel M, Marinescu I. Investigation of pre-dressing time for ELID grinding technique. J Mater Process Technol. 2004;149/1-3:591 596.
[50] Fathima K, Schinhaerl M, Geiss A, Rascher R, Sperber P. A knowledge based feed-back control system for precision ELID grinding. Elsevier; Precision Engineering. 2010;34:124 132.
[51] Ohmori H, Marinescu ID, Katahira K. Electrolytic in-process dressing (ELID) technologies, fundamentals and applications. CRC Press, Taylor & Francis Group; 2011.
[52] Rahman M, Kumar AS, Biswas I. A review of electrolytic in-process dressing (ELID) grinding. Key Eng Mater Trans Tech Publ. 2009;404:45 59.
[53] Rahman M, Kumar AS, Lim HS, Fatima K. Nano finish grinding of brittle materials using electrolytic in-process dressing (ELID) technique. Sadhana. 2003;28(5):957 974.
[54] Sawada K, Yamamoto A, Ohmori H, Yutaka Y, Moriyasu S, Muramatsu Y. Study on ELID grinding for quartz blank, focused on advances on micro-mechanical fabrication techniques. RIKEN Rev. 2001;34:29 34.
[55] Pietsch GJ, Kerstan M. Understanding simultaneous double disc grinding: operation principle and material removal kinematics in silicon wafer planarization. Elsevier; Precision engineering. 2005;29:189 196.
[56] Han P. A study on electrolytic in-process dressing (ELID) grinding of sapphire with acoustic emission monitoring. MSc. Thesis. The University of Toledo, Toledo; 2009.
[57] Brown J. Advanced machining technology handbook. McGraw-Hill Professional Publishing; 1998.
[58] Uhlmann E, Ardelt Th. Influence of kinematics on the face grinding process on lapping machines. Ann CIRP Manuf Technol. 1999;48(1):281 284.
[59] King RI. Handbook of high-speed machining technology. Chapman & Hall Advanced Industrial Technology; 1985.
[60] Shen B. Minimum quantity lubrication grinding using nanofluids. PhD Dissertation, The University of Michigan, Michigan; 2008.
[61] Sanchez LEA, Jun NZX, Fiocchi AA. Surface finishing of flat pieces when submitted to lapping kinematics on abrasive disc dressed under several overlap factors. Elsevier; Precision engineering. 2011;35:355 363.
[62] Klimczyk P. SiC-based composites sintered with high pressure method. Silicon carbide- materials, processing and applications in electronic devices. Dr. Moumita Mukherjee; 2011.
[63] Inasaki I. High-efficiency grinding of advanced ceramics. Ann CIRP. 1986;35(1):211 214.
[64] Spanu CE. Electrolytic in-process dressing (ELID) applied to double side grinding of ceramic materials. PhD Dissertation, The University of Toledo, Toledo; 2004.
[65] Dorin AlC, Marinescu ID. The establishment of the cutting capacity of the diamond wheels in the plane grinding. Ann CIRP Manuf Technol. 1981;30(1):237 240.
