Mechanistic modeling of bone-drilling process with experimental validation

Journal of Materials Processing Technology

Volumn 214, Issue 4, 2014, Pages 1018-1026

  Sui, Jianbo ^a   Sugita, Naohiko ^a   Ishii, Kentaro ^a   Harada, Kanako ^a   Mitsuishi, Mamoru ^a  

^a UNIVERSITY OF TOKYO   (Japan)

Author keywords

Bone; Drilling; Mechanistic model; Thrust force; Torque

Indexed keywords

BONE; DRILLING; DRILLS; MAMMALS; TORQUE;

DRILL POINT GEOMETRY; DRILLING TORQUES; EXPERIMENTAL VALIDATIONS; INDENTATION ZONE; MECHANISTIC MODELING; SPECIFIC CUTTING PRESSURE; THRUST FORCE AND TORQUE; THRUST FORCES;

INFILL DRILLING;

EID: 84893667758     PISSN: 09240136     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jmatprotec.2013.11.001     Document Type: Article

References (49)

1. Ai-Dabag, A.N., Sultan, A.A., 2009. Effect of cooling an irrigation solution during preparation of implant site on heat generation using elite system for implant. Al-Rafidain Dental Journal 10, 260-264.
2. Alam, K, 2009. Experimental and Numerical Analysis of Conventional and Ultrasonically-Assisted Cutting of Bone. Loughborough University, pp. 194.
3. Alam, K., et al, 2011. Experimental investigations of forces and torque in conventional and ultrasonically-assisted drilling of cortical bone. Medical Engineering & Physics 33, 234-239.
4. Augustin, G., et al, 2008. Thermal osteonecrosis and bone drilling parameters revisited. Archives of Orthopaedic and Trauma Surgery 128, 71-77. (Pubitemid 350055545)
5. Augustin, G., et al, 2012. Cortical bone drilling and thermal osteonecrosis. Clinical Biomechanics 27, 313-325.
6. Aziz, M.H., et al, 2012a. Force control algorithm for detection of break-through bone drilling. Journal of Mechanical Engineering 9, 1-4.
7. Aziz, M.H., et al, 2012b. Real-time algorithm for detection of breakthrough bone drilling. Procedia Engineering International Symposium on Robotics and Intelligent Sensors 2012 (IRIS 2012) 41, 352-359.
8. Bachus, K.N., et al, 2000. The effects of drilling force on cortical temperatures and their duration: an in vitro study. Medical Engineering & Physics 22, 685-691. (Pubitemid 32378730)
9. Basiaga, M., et al, 2011. Numerical and experimental analyses of drills used in osteosynthesis. Acta of Bioengineering and Biomechanics/Wroclaw University of Technology 13, 29-36.
10. Bono, M.J., Ni, J., 2001. The Indentation Zone of a Twist Drill. In: Transactions of the North American Manufacturing Research Institute of SME. SME, Gainesville, Florida, pp. 303-310.
11. Chandrasekharan, V., 1996. A Model to Predict the Three-Dimensional Cutting Force System for Drilling with Arbitrary Point Geometry. University of Illinois at Urbana-Champaign, Ann Arbor, pp. 178.
12. Chandrasekharan, V., et al, 1995. A mechanistic approach to predicting the cutting forces in drilling: with application to fiber-reinforced composite materials. Journal of Manufacturing Science and Engineering 117, 559-570.
13. Cook, N.H., 1966. Manufacturing Analysis. Addison-Wesley, Reading, Mass.
14. Davidson, S.R.H., James, D.F., 2003. Drilling in bone: modeling heat generation and temperature distribution. Journal of Biomechanical Engineering 125, 305-314. (Pubitemid 36876423)
15. Diaz, I., 2013. Bone drilling methodology and tool based on position measurements. Computer Methods and Programs in Biomedicine 112 (2), 284-292, http://dx.doi.Org/10.1016/j.cmpb.2013.02.002.
16. Eriksson, A.R., Albrektsson, T., 1983. Temperature threshold levels for heat-induced bone tissue injury: a vital-microscopic study in the rabbit. Journal of Prosthetic Dentistry 50, 101-107.
17. Evans, F.G., 1964. Significant differences in the tensile strength of adult human compact bone. In: Bone and Tooth: Proceedings, Vol. 1, p. 319.
18. Jacob, C.H., et al, 1976. A study of the bone machining process - drilling. Journal of Biomechanics 9, 343-349.
19. Jacobs, C.H., et al, 1974. A study of the bone machining process - orthogonal cutting. Journal of Biomechanics 7, 131-136.
20. Kachanov, L.M., 1971. Foundations of the Theory of Plasticity. North-Holland, Amsterdam.
21. Karaca, F., et al, 2011. Influence of orthopaedic drilling parameters on temperature and histopathology of bovine tibia: an in vitro study. Medical Engineering & Physics 33, 1221-1227.
22. Karalis, T., Galanos, P., 1982. Research on the mechanical impedance of human bone by a drilling test. Journal of Biomechanics 15, 561-581. (Pubitemid 12009862)
23. Langella, A., et al, 2005. A torque and thrust prediction model for drilling of composite materials. Composites Part A: Applied Science and Manufacturing 36, 83-93.
24. Lee, J., et al, 2012a. Modeling and experimentation of bone drilling forces. Journal of Biomechanics 45, 1076-1083.
25. Lee, J., et al, 2012b. An experimental investigation on thermal exposure during bone drilling. Medical Engineering & Physics 34, 1510-1520.
26. Lee, J., et al, 2011. A new thermal model for bone drilling with applications to orthopaedic surgery. Medical Engineering & Physics 33, 1234-1244.
27. Lee, W.Y., Shih, C.L., 2006. Control and breakthrough detection of a three-axis robotic bone drilling system. Mechatronics 16, 73-84.
28. Louredo, M., et al, 2012. DRIBON: a mechatronic bone drilling tool. Mechatronics 22, 1060-1066.
29. Lundskog, J., 1972. Heat and bone tissue: an experimental investigation of the thermal properties of bone and threshold levels for thermal injury. Scandinavian Journal of Plastic and Reconstructive Surgery 9, 1-80.
30. MacAvelia, T., et al, 2012. Biomechanical measurements of surgical drilling force and torque in human versus artificial femurs. Journal of Biomechanical Engineering 134, 124503.
31. Mauch, CA., Lauderbaugh, L.K., 1990. Modeling the drilling process - an analytical model to predict thrust force and torque. In: Computer Modeling and Simulation of Manufacturing Processes. ASME, New York, pp. 59-66.
32. Mellinger, J.C., et al, 2002. Modeling chip-evacuation forces and prediction of chip-clogging in drilling. Journal of Manufacturing Science and Engineering 124, 605-614. (Pubitemid 35202583)
33. Oxford, C, 1955. On the drilling of metals I - basic mechanics of the process. Transactions of ASME 77, 103-111.
34. Oxley, P.L.B., 1963. Rate of strain effect in metal cutting. Journal of Manufacturing Science and Engineering 85, 335-337.
35. Pandey, R.K., Panda, S.S., 2013. Drilling of bone: a comprehensive review. Journal of Clinical Orthopaedics and Trauma 4, 15-30.
36. Pichler, W., et al, 2008. Frequency of instrument breakage during orthopaedic procedures and its effects on patients. Journal of Bone & Joint Surgery 90, 2652-2654.
37. Powers, M.J., 2006. The Mechanics of Bone Drilling: Experiment and Finite Element Predictions. University of Calgary, Canada, Ann Arbor, pp. 157.
38. Price, M., et al, 2002. The rate of instrument breakage during orthopaedic procedures. International Orthopaedics (SICOT) 26, 185-187. (Pubitemid 36061628)
39. Sener, B.C., et al, 2009. Effects of irrigation temperature on heat control in vitro at different drilling depths. Clinical Oral Implants Research 20, 294-298.
40. Sezek, S., et al, 2012. Influence of drill parameters on bone temperature and necrosis: a FEM modelling and in vitro experiments. Computational Materials Science 60, 13-18.
41. Sharawy, M., et al, 2002. Heat generation during implant drilling: the significance of motor speed. Journal of Oral and Maxillofacial Surgery 60, 1160-1169.
42. Stabler, G.V., 1951. The fundamental geometry of cutting tools. Proceedings of the Institution of Mechanical Engineers 165, 14-26.
43. Tuijthof, G.J.M., et al, 2013. Influence of tool geometry on drilling performance of cortical and trabecular bone. Medical Engineerings Physics 35, 1165-1172.
44. Udiljak, T., et al, 2007. Investigation into bone drilling and thermal bone necrosis. Advances in Production Engineering & Management 2, 103-112.
45. Wiggins, K.L., Malkin, S., 1976. Drilling of bone. Journal of Biomechanics 9, 553-559.
46. XU, D., et al, 2011. Empirical formula and experiment based force modeling for haptic spine surgery simulation. International Journal of Modeling, Simulation, and Scientific Computing 02, 29-44.
47. Yuan-Kun, T., et al, 2013. Finite element simulations of bone temperature rise during bone drilling based on a bone analog. Journal of Medical and Biological Engineering 33, 269-274.
48. Yuan-Kun, T., et al, 2011. The effects of drilling parameters on bone temperatures: a finite element simulation. In: Bioinformatics and Biomedical Engineering (iCBBE) 2011 5th International Conference on, pp. 1-4.
49. Zhang, L., et al, 2013. Mist cooling in neurosurgical bone grinding. CIRP Annals-Manufacturing Technology 62, 367-370.