Investigation on Innovative Dynamic Cutting Force Modelling in Micro-milling and Its Experimental Validation

Vogler MP, DeVor RE, Kapoor SG (2003) Microstructure-level force prediction model for micro-milling of multi-phase materials. Trans J Manuf Sci Eng 125(2):202–209

Vogler MP, Kapoor SG, DeVor RE (2005) On the modeling and analysis of machining performance in micro-endmilling, part II: cutting force prediction. Trans ASME J Manuf Sci Eng 126(4):695–705

Jun MB, DeVor RE, Kapoor SG (2006) Investigation of the dynamics of microend milling—part II: model validation and interpretation. Trans J Manuf Sci Eng 128(4):901–912

Cheng K, Huo D (eds) (2013) Micro cutting: fundamentals and applications. Wiley, Chichester

Bissacco G, Hansen HN, Slunsky J (2008) Modelling the cutting edge radius size effect for force prediction in micro milling. CIRP Ann Manuf Technol 57(1):113–116

Malekian M, Park SS, Jun MB (2009) Modeling of dynamic micro-milling cutting forces. Int J Mach Tools Manuf 49(7):586–598

Afazov S, Ratchev S, Segal J (2010) Modelling and simulation of micro-milling cutting forces. J Mater Process Technol 210(15):2154–2162

Jin X, Altintas Y (2012) Prediction of micro-milling forces with finite element method. J Mater Process Technol 212(3):542–552

Bao WY, Tansel IN (2000) Modeling micro-end-milling operations, part I: analytical cutting force model. Int J Mach Tools Manuf 40(15):2155–2173

Liu X, DeVor R, Kapoor S (2006) An analytical model for the prediction of minimum chip thickness in micromachining. Trans J Manuf Sci Eng 128(2):474–481

Wang JJ, Zheng C (2002) An analytical force model with shearing and ploughing mechanisms for end milling. Int J Mach Tools Manuf 42(7):761–771

Zaman M, Kumar AS, Rahman M, Sreeram S (2006) A three-dimensional analytical cutting force model for micro end milling operation. Int J Mach Tools Manuf 46(3):353–366

Özel T, Altan T (2000) Process simulation using finite element method—prediction of cutting forces, tool stresses and temperatures in high-speed flat end milling. Int J Mach Tools Manuf 40(5):713–738

Huo D, Cheng K (2010) An experimental investigation on micro milling of OFHC copper using tungsten carbide, CVD and single crystal diamond micro tools. Proc IMechE Part B J Eng Manuf 224(B6):995–1003

Kang I, Kim J, Kim J, Kang M, Seo Y (2007) A mechanistic model of cutting force in the micro end milling process. J Mater Process Technol 187:250–255

Park S, Malekian M (2009) Mechanistic modeling and accurate measurement of micro end milling forces. CIRP Ann Manuf Technol 58(1):49–52

Pérez H, Vizán A, Hernandez J, Guzmán M (2007) Estimation of cutting forces in micromilling through the determination of specific cutting pressures. J Mater Process Technol 190(1):18–22

Davoudinejad A, Tosello G, Parenti P, Annoni M (2017) 3D finite element simulation of micro end-milling by considering the effect of tool run-out. Micromachines 8(6):187

Davoudinejad A, Tosello G, Annoni M (2017) Influence of the worn tool affected by built-up edge (BUE) on micro end-milling process performance: a 3D finite element modeling investigation. Int J Precis Eng 18(10):1321–1332

Zhang X, Yu T, Wang W (2018) Prediction of cutting forces and instantaneous tool deflection in micro end milling by considering tool run-out. Int J Mech Sci 136:124–133

Matsumura T, Tamura S (2017) Cutting force model in milling with cutter runout. Procedia CIRP 58:566–571

Kang I, Kim J, Seo Y (2011) Investigation of cutting force behaviour considering the effect of cutting edge radius in the micro-scale milling of AISI 1045 steel. Proc Inst Mech Eng Part B J Eng Manuf 225(2):163–171

Li C, Lai X, Li H, Ni J (2007) Modeling of three-dimensional cutting forces in micro-end-milling. J Micromech Microeng 17(4):671–678

Jiao F (2015) Investigation on micro-cutting mechanics with application to micro-milling. Ph.D. thesis, Brunel University London

Niu Z, Jiao F, Cheng K (2018) An innovative investigation on chip formation mechanisms in micro-milling using natural diamond and tungsten carbide tools. J Manuf Process 31(1):382–394