Open Access
MATEC Web of Conferences
Volume 51, 2016
2016 International Conference on Mechanical, Manufacturing, Modeling and Mechatronics (IC4M 2016)
Article Number 01007
Number of page(s) 5
Section Chapter 1: Engineering Simulation, Modelling and Analytical Studies
Published online 06 April 2016
  1. B. Gospodarič • B. Bučar • G. Fajdiga. Active vibration control of circular saw blades. Eur. J. Wood Prod, 73:151–158 (2015) [CrossRef]
  2. Wen-Tung Chang & Chih-Hsien Su & Dong-Xie Guo & Geo-Ry Tang & Fang-Jung Shiou. Automated optical inspection for the runout tolerance of circular saw blades. Int J Adv Manuf Technol, 66:565–582 (2013) [CrossRef]
  3. Mats Ekevad, Luís Cristóvão & Birger Marklund. Wear of teeth of circular saw blades. Wood Material Science and Engineering, 7: 150–153 (2012) [CrossRef]
  4. R. G. Parker and C. D. Mote. Jr. Asymmetric tensioning of circular saws. Holz als Roh-und Werkstoff, 47:143–151 (1989) [CrossRef]
  5. G. S. Schajer. Understanding saw tensioning. Holz als Roh- and Werkstoff, 42:425–430 (1984) [CrossRef]
  6. G. S. Schajer. North American techniques for circular saw tensioning and leveling: Practical adjustment methods. Holz als Roh- and Werkstoff, 50:153–157 (1992) [CrossRef]
  7. N. Nicoletti, D. Fendeleur, L. Nilly, M. Renner. Using Finite Elements to model circular saw roll tensioning. Holz als Roh- and Werkstoff, 54:99–104 (1996) [CrossRef]
  8. Y. M. Stakhiev. Research on circular saws roll tensioning in Russia: Practical adjustment methods. Holz als Roh- and Werkstoff, 57:57–62 (1999) [CrossRef]
  9. Stakhiev. Y. Cavity oscillation and equilibrium stability loss of flat thin disk irregular heating[J]. Woodworking machine and tool, 2:27–30 (1993)
  10. Y. M. Stakhiev. Y. M. Stakhiev. Coordination of saw blade tensioning with rotation speed: myth or reality? Holz Roh Werkst, 62:313–315 (2004) [CrossRef]
  11. Schajer. G. S, Kishimoto. K. J. High -speed circular sawing using temporary tensioning[J]. Holz als Rol-und werkstoff, 54(4): 361–367 (1996) [CrossRef]