How to cite this paper
Sreenivasulu, R., Rao, C & Ravindra, K. (2020). Effect of thrust and torque exerted during drilling to optimize exit burr height and thickness by choosing variable drill bit geometry: A simplified theoretical model approach.International Journal of Data and Network Science, 4(1), 43-56.
Refrences
Armarego, E. J. A. (1996). Material Removal Processes: Twist Drills and Drilling Operations. University of Melbourne, Department of Mechanical and Manufacturing Engineering, Manufacturing Science Group.
Armarego, E. J. A., & Cheng, C. Y. (1972). Drilling wih flat rake face and conventional twist drills—II. Exper-imental investigation. International Journal of Machine Tool Design and Research, 12(1), 37-54.
Armarego, E. J. A., & Cheng, C. Y. (1972). Drilling with flat rake face and conventional twist drills—I. theo-retical investigation. International Journal of Machine Tool Design and Research, 12(1), 17-35.
Aurich, J. C., Dornfeld, D., Arrazola, P. J., Franke, V., Leitz, L., & Min, S. (2009). Burrs—Analysis, control and removal. CIRP annals, 58(2), 519-542.
Chandrasekharan, V., Kapoor, S. G., & DeVor, R. E. (1995). A mechanistic approach to predicting the cutting forces in drilling: with application to fiber-reinforced composite materials. Journal of Engineering for Indus-try, 117(4), 559-570.
Chandrasekharan, V., Kapoor, S. G., & DeVor, R. E. (1998). A mechanistic model to predict the cutting force system for arbitrary drill point geometry. Journal of Manufacturing Science and Engineering, 120(3), 563-570.
Chen, W. C., Fuh, K. H., Wu, C. F., & Chang, B. R. (1996). Design optimization of a split-point drill by force analysis. Journal of Materials Processing Technology, 58(2-3), 314-322.
Elhachimi, M., Torbaty, S., & Joyot, P. (1999). Mechanical modelling of high speed drilling. 1: predicting torque and thrust. International Journal of Machine Tools and Manufacture, 39(4), 553-568.
Gong, Y., & Ehmann, K. (2001). Mechanistic model for dynamic forces in micro-drilling. 19-28. Paper pre-sented at 2001 ASME International Mechanical Engineering Congress and Exposition, New York, NY, United States.
Gong, Y., Lin, C., & Ehmann, K. F. (2005). Dynamics of initial penetration in drilling: Part 2—motion models for drill skidding and wandering with experimental verification. Journal of manufacturing science and engi-neering, 127(2), 289-297.
Hirsch, J. (2011). Aluminium in innovative light-weight car design. Materials Transactions, 52(5), 818-824..
Kachanov, L. M. (2004). Fundamentals of the Theory of Plasticity. Courier Corporation.
Kapoor, S. G., DeVor, R. E., Zhu, R., Gajjela, R., Parakkal, G., & Smithey, D. (1998). Development of mech-anistic models for the prediction of machining performance: model building methodology. Machining Sci-ence and Technology, 2(2), 213-238.
Miyake, T., Yamamoto, A., Kitajima, K., Tanaka, Y., & Takazawa, K. (1991). Study on mechanism of burr formation in drilling: deformation of material during burr formation. Journal of Japan Society Precision En-gineering, 57(3), 485-490.
Oxford Jr, C. J. (1955). On the drilling of metals 1: basic mechanics of the process. Trans. ASME, 77(2), 103-111.
Sofronas, A. (1976). Effect of System Stiffness, Workpiece Hardness and Spindle Speed on Drilling Burr Thicknesses. SME Tech. Paper.
Stephenson, D. A., & Agapiou, J. S. (1992). Calculation of main cutting edge forces and torque for drills with arbitrary point geometries. International Journal of Machine Tools and Manufacture, 32(4), 521-538.
Strenkowski, J. S., Hsieh, C. C., & Shih, A. J. (2004). An analytical finite element technique for predicting thrust force and torque in drilling. International Journal of Machine Tools and Manufacture, 44(12-13), 1413-1421.
Williams, R. A. (1974). A study of the drilling process. Journal of Engineering for Industry, 96(4), 1207-1215.
Armarego, E. J. A., & Cheng, C. Y. (1972). Drilling wih flat rake face and conventional twist drills—II. Exper-imental investigation. International Journal of Machine Tool Design and Research, 12(1), 37-54.
Armarego, E. J. A., & Cheng, C. Y. (1972). Drilling with flat rake face and conventional twist drills—I. theo-retical investigation. International Journal of Machine Tool Design and Research, 12(1), 17-35.
Aurich, J. C., Dornfeld, D., Arrazola, P. J., Franke, V., Leitz, L., & Min, S. (2009). Burrs—Analysis, control and removal. CIRP annals, 58(2), 519-542.
Chandrasekharan, V., Kapoor, S. G., & DeVor, R. E. (1995). A mechanistic approach to predicting the cutting forces in drilling: with application to fiber-reinforced composite materials. Journal of Engineering for Indus-try, 117(4), 559-570.
Chandrasekharan, V., Kapoor, S. G., & DeVor, R. E. (1998). A mechanistic model to predict the cutting force system for arbitrary drill point geometry. Journal of Manufacturing Science and Engineering, 120(3), 563-570.
Chen, W. C., Fuh, K. H., Wu, C. F., & Chang, B. R. (1996). Design optimization of a split-point drill by force analysis. Journal of Materials Processing Technology, 58(2-3), 314-322.
Elhachimi, M., Torbaty, S., & Joyot, P. (1999). Mechanical modelling of high speed drilling. 1: predicting torque and thrust. International Journal of Machine Tools and Manufacture, 39(4), 553-568.
Gong, Y., & Ehmann, K. (2001). Mechanistic model for dynamic forces in micro-drilling. 19-28. Paper pre-sented at 2001 ASME International Mechanical Engineering Congress and Exposition, New York, NY, United States.
Gong, Y., Lin, C., & Ehmann, K. F. (2005). Dynamics of initial penetration in drilling: Part 2—motion models for drill skidding and wandering with experimental verification. Journal of manufacturing science and engi-neering, 127(2), 289-297.
Hirsch, J. (2011). Aluminium in innovative light-weight car design. Materials Transactions, 52(5), 818-824..
Kachanov, L. M. (2004). Fundamentals of the Theory of Plasticity. Courier Corporation.
Kapoor, S. G., DeVor, R. E., Zhu, R., Gajjela, R., Parakkal, G., & Smithey, D. (1998). Development of mech-anistic models for the prediction of machining performance: model building methodology. Machining Sci-ence and Technology, 2(2), 213-238.
Miyake, T., Yamamoto, A., Kitajima, K., Tanaka, Y., & Takazawa, K. (1991). Study on mechanism of burr formation in drilling: deformation of material during burr formation. Journal of Japan Society Precision En-gineering, 57(3), 485-490.
Oxford Jr, C. J. (1955). On the drilling of metals 1: basic mechanics of the process. Trans. ASME, 77(2), 103-111.
Sofronas, A. (1976). Effect of System Stiffness, Workpiece Hardness and Spindle Speed on Drilling Burr Thicknesses. SME Tech. Paper.
Stephenson, D. A., & Agapiou, J. S. (1992). Calculation of main cutting edge forces and torque for drills with arbitrary point geometries. International Journal of Machine Tools and Manufacture, 32(4), 521-538.
Strenkowski, J. S., Hsieh, C. C., & Shih, A. J. (2004). An analytical finite element technique for predicting thrust force and torque in drilling. International Journal of Machine Tools and Manufacture, 44(12-13), 1413-1421.
Williams, R. A. (1974). A study of the drilling process. Journal of Engineering for Industry, 96(4), 1207-1215.