References
- ACGIH: 2017 TLVs and BEIs: Threshold Limit Values, ACGIH, Cincinnati, OH (2017).
- Phillips, J.I., P.S. Heyns, and G. Nelson: Rock drills used in South African mines: A comparative study of noise and vibration levels. Ann. Occup. Hyg. 51(2):305–310 (2007).
- Pyykkö, I.: Clinical aspects of the hand-arm vibration syndrome: A review. Scand. J. Work Environ. Health 12(5):439–447 (1986).
- Mirbod, S.M., H. Yoshida, H. Y. Komura, et al.: Prevalence of Raynaud's phenomenon in different groups of workers operating hand-held vibrating tools. Int. Arch. Occup. Environ. Health 66(1):13–22 (1994).
- Palmer, K.T., M.J. Griffin, H. Syddall, et al.: Risk of hand-arm vibration syndrome according to occupation and sources of exposure to hand-transmitted vibration: A national survey. Am. J. Ind. Med. 39(4):389–396 (2001).
- Bovenzi, M.: Health effects of mechanical vibration. G. Ital. Med. Lav. Ergon. 27:58–64 (2005).
- Burström, L., M. Hagberg, R. Lundström, and T. Nilsson: “Relation between Hand-arm Vibration Exposure and Symptoms among Workers within a Heavy-engineering Production Workshop.” 10th International Conference on Hand-Arm Vibration, Las Vegas, 2004.
- Nataletti, P., E. Marchetti, A. Lunghi, et al.: Occupational exposure to mechanical vibration: the Italian vibration database for risk assessment. Int. J. Occup. Saf. Ergon. 14(4):379–386 (2008).
- European Community Directive 2002/44/EC of the European Parliament and of the Council of 25 June 2002 on the minimum health and safety requirements regarding the exposure of workers to the risks arising from physical agents (vibration). Off. J. Eur. Commun. 45:13–19 (2002).
- Griffin, M.J., H.V.C. Howarth, P.M. Pitts et al.: “Guide to Good Practice on Hand-Arm Vibration.” Advisory Committee on Safety and Health at Work. EU Good Practice Guide HAV, V7.7. Luxembourg, European Commission, 2006.
- Antonucci, A., and P. Boscolo: Personal protection device: behaviour of different gloves types in terms of vibration response. G. Ital. Med. Lav. Erg 30:3 Suppl. (2008).
- Welcome, D.E., R.G. Dong, X.S. Xu, C. Warren C, and T.W. McDowell: The effects of vibration-reducing gloves on finger vibration. Int. J. Ind. Ergon. 44:45–59 (2014).
- Hewitt, S., R.G. Dong, D. E. Welcome, and T.W. McDowell: Anti-vibration gloves? Ann. Occup. Hyg. 59(2):127–141 (2015).
- Rimell, A.N., L. Notin, N.J. Mansfield, and D.J. Edwards: Variation between manufacturers' declared vibration emission values and those measured under simulated workplace conditions for a range of hand-held power tools typically found in the construction industry. Int. J. Ind. Ergon. 38:661–675 (2008).
- Mansfield, N.J.: “Variation in the Vibration Emission of Rotary Hammer Drills under Simulated Work-site Conditions.” Proceedings of the First American Conference on Human Vibration. Waterfront Place Hotel Morgantown, West Virginia, June 5–7, 2006.
- Shanks, E.P., S.M. Hewitt, and P.M. Pitts: Investigation of the relationship between vibration emission and in-use vibration for electrical tools, health and safety laboratory. Can. Acoust. 39(2):104–105 (2011).
- ISO 5349-1 & -2: Mechanical Vibration – Measurement and Evaluation of Human Exposure to Hand-transmitted Vibration – Part 1: General Requirements & – Part 2: Practical Guidance for Measurement at the Workplace. Geneva: International Organization for Standardization, 2001.
- Jakubek, B., and W. Rukat: Influence of a tool's working diameter on the level of handle vibrations of an impact drill (Conference Paper). Vibroeng. Procedia 6(1):288–291 (2015).
- Edwards, D.J., and G. D. Holt: Hand‐arm vibration exposure from construction tools: results of a field study. Const. Manage. Econ. 24(2):209–217 (2006).
- O'Boyle, M.J., and M.J. Griffin: “Transmissibility and Dynamic Stiffness of Glove Materials and the Apparent Mass of the Hand.” 10th International Conference on Hand-Arm Vibration, Las Vegas, 2004.
- Park, H.S., and B.J. Martin: Contribution of the tonic vibration reflex to muscle stress and muscle fatigue. Scand. J. Work Environ. Health 19:35–42 (1993).
- ISO 28927-5 & -10: Hand-held Portable Power Tools – Test Methods for Evaluation of Vibration Emission – Part 5: Drills and Impact Drills & – Part 10: Percussive Drills, Hammers and Breakers. Geneva: International Organization for Standardization, Geneva (2011).
- Huseyin, M., H.M. Ertunc, K.A. Loparo, and H. Ocak: Tool wear condition monitoring in drilling operations using Hidden Markov Models (HMMs). Int. J. Machine Tools Manufact. 41:1363–1384 (2001).
- Rawat, S., and H. Attia: Wear mechanisms and tool life management of WC–Co drills during dry high speed drilling of woven carbon fibre composites. Wear 267:1022–1030 (2009).
- Figueroa, M., E. García, S. Muhl, and S. Rodil: Preliminary tribological study and tool life of four commercial drills. Tribol. Trans. 57(4):581–588 (2014).
- Li, X., S. Dong, and P.K. Venuvinod: Hybrid learning for tool wear monitoring. Int. J. Adv. Manufact. Technol. 16:303–307 (2000).
- Abu-Mahfouz, I.: Drilling wear detection and classification using vibration signals and artificial neural network. Int. J. Machine Tools Manufact. 43:707–720 (2003).
- Rempel, D., A. Barr, and A. Antonucci: A new test bench system for hammer drills: Validation for handle vibration. Int. J. Ind. Ergon. (2017, in press, E-pub).
- Dong, R.G., J.H. Dong, J.Z. Wu, and S. Rakheja: Modeling of biodynamic responses distributed at the fingers and the palms of the human hand-arm system. J. Biomech. 40:2335–2340 (2007).
- Dong, R.G., D.E. Welcome, J.Z. Wu, and T. W. McDowell: Development of hand-arm system models for vibrating tool analysis and test rig construction. Noise Control Eng. J. 56(1):35–44 (2008).
- Dong, R., S. Rakheja, T. McDowell, D. Welcome, and J. Wu: Estimation of the biodynamic responses distributed at fingers and palm based on the total response of the hand-arm system. Int. J. Ind. Ergon. 40(4):425–436 (2010).
- Brammer, A.J., and P.M. Pitts: Frequency weighting for vibration-induced white finger compatible with exposure-response models. Ind. Health 50:397–411 (2012).
- Tominaga, Y.: New frequency weighting of hand-harm vibration. Ind. Health 43:509–515 (2005).
- Pitts, P.M., H.J. Mason, K.A. Poole, and C.E. Young: Relative performance of frequency weighting Wh and candidates for alternative frequency weightings for predicting the occurrence of hand-transmitted vibration-induced injuries. Ind. Health 50:388–396 (2012).
- Martin, B.J., and H.S. Park: Analysis of the tonic vibration reflex: influence of vibration parameters on motor unit synchronization and muscle fatigue. Eur. J. Appl. Physiol. 75(6):504–511 (1997).
- Adamo, D.E., B. J. Martin, and P. Johnson: Vibration-induced muscle fatigue, a possible contribution to musculoskeletal disorders. Eur. J. Appl. Physiol. 88(1–2):134–140 (2002).
- Miller, D., and A. Ball: The wear mechanism of impregnated diamond bits. Wear 141:311–320 (1994).
- Abtahi, A., S. Butt, J. Molgaard, and F. Arvani: “Wear Analysis and Optimization on Impregnated Diamond Bits in Vibration Assisted Rotary Drilling (VARD).” 45th US Rock Mechanics/Geomechanics Symposium, June 26–29, 2011, American Rock Mechanics Association, San Francisco. pp. 11–266.
- Franca, L.E.P., M. Mostofi, and T. Richard: Interface laws for impregnated diamond tools for a given state of wear. Int. J. Rock Mech. Mining Sci. 73:184–193 (2015).