REFERENCES
- Svensson, B.A., Nyström, S., Gradin, P.A., and Höglund, H. (2009), “Frictional Testing of Wood—Initial Studies with a New Device,” Tribology International, 42(1), pp 190–196.
- Atack, D. and Tabor, D. (1958), “The Friction of Wood,” Proceedings of the Royal Society A, 246, pp 539–555.
- Mclaren, K.G. and Tabor, D. (1961), “Frictional Properties of Lignum-Vitae,” British Journal of Applied Physics, 12, p 118–120.
- Svensson, B.A., Nyström, S., Gradin, P.A., Bergfors, E., and Höglund, H. (2003), “Tribology under Refining Conditions—Initial Studies,” International Mechanical Pulping Conference, June 2–5, Quebec City, Canada.
- Meng, Q.J., Hirai, T., and Koizumi, A. (2008), “Frictional Coefficients between Timber and Some Structural Sheet Materials,” Mokuzai Gakkaishi, 54(5), pp 281–288.
- Bejo, L., Lang, E.M., and Fodor, T. (2000), “Friction Coefficients of Wood-Based Structural Composites,” Forest Products Journal, 50(3), pp 39–43.
- Chen, S.S., Hsu, F.L., and Huang, Y.S. (2005), “Frictional Properties of Wood Flooring Materials,” Taiwan Journal of Forest Science, 20(2), pp 95–104.
- Chen, H.J. and Li, L. (2006), “The Functional Index and Status of the Sports Floors in China,” Wood Processing Machinery, 4, pp 44–46.
- Chen, H.J., Li, L., and Wang, H.D. (2007), “Preliminary Research on Sliding Properties of the Wooden Floor for Gymnasium,” Wood Processing Machinery, 4, pp 25–28.
- Mckenzie, W.M. and Karpovich, H. (1968), “The Frictional Behavior of Wood,” Wood Science and Technology, 2, pp 139–152.
- Guan, N., Thunell, B., and Lyth, K. (1983), “On the Friction between Steel and Some Common Swedish Wood Species,” European Journal of Wood and Wood Products, 41, pp 55–60.
- Masuko, M., Aoki, S., and Suzuki, A. (2005), “Influence of Lubricant Additive and Surface Texture on the Sliding Friction Characteristics of Steel under Varying Speeds Ranging from Ultralow to Moderate,” Tribology Transactions, 48(3), pp 289–298.
- Han, L., Zhang, D.W., and Wang, F.J. (2013), “Predicting Film Parameter and Friction Coefficient for Helical Gears Considering Surface Roughness and Load Variation,” Tribology Transactions, 56(1), pp 49–57.
- Menezes, P.L., Kishore, Kailas, S.V., and Lovell, M.R. (2012), “Analysis of Strain Rates and Microstructural Evaluation during Metal Forming: Role of Surface Texture and Friction,” Tribology Transactions, 55(5), pp 582–589.
- Bigerelle, M. and Iost, A. (2007), “A Numerical Method to Calculate the Abbott Parameters: A Wear Application,” Tribology International, 40(9), pp 1319–1334.
- Brient, A., Brissot, M., Rouxel, T., and Sangleboeuf, J.C. (2011), “Influence of Grinding Parameters on Glass Workpieces Surface Finish Using Response Surface Methodology,” Journal of Manufacturing Science and Engineering, 133(4), p 044501.