Temperature Influence on Wear Characteristics and Blunting of the Tool in Continuous Wood Cutting Process

Published Date
2014, Vol.69:133–140, doi:10.1016/j.proeng.2014.02.213
24th DAAAM International Symposium on Intelligent Manufacturing and Automation, 2013
Open Access, Creative Commons license

Author 

• Izet Horman ^a,,
 
• Ibrahim Busuladžić ^b
 
• Esed Azemović ^a

• aMašinski fakultet u Sarajevu, Vilsonovo šetalište 9, Sarajevo 71000, Bosnia and Herzegovina
• bSarajevogas, Muhameda ef Pandže 4, Sarajevo 71000, Bosnia and Herzegovina

Available online 25 March 2014.

Abstract

Temperature of the cutting tool is one of the most important factor affecting the tool wear in wood processing, because the basic properties of the material from which a tool is made, such as hardness, toughness and chemical stability, degrade with increasing tool's temperature. The effect of different wear mechanisms in the degradation of tools, cannot be estimated as accurately as possible without information on the temperature distribution in the tool and the impact of temperature on the basic material properties of cutting tools, especially in the most critical region, the edge of the tool.

Temperature distribution in the blade during the process of wood cutting was investigated by numerical means and compared with experimental and analytical results. In this study we have used the Boundary Element Method (BEM) to obtain numerical solution. It was found that the temperature of the blade depends on several factors, including the cutting speed, the continuity of the cutting process, the depth of cut and the shape of the tool.

Keywords

wood cutting

temperature 

boundary element method

---

References

1. • [1]
   • K. Banshoya, T. Fukui
   • Tool Life in Machine Boring of Wood and Wood-Based Materials VII. Effect of Cutting Heat on the Tool Wear of Spur Machine-Bits
   • Mokuzai Gakkaishi, Volume 33, 1987, pp. 857–864
   • View Record in Scopus
     Citing articles (2)
2. • [2]
   • H. Inoue
   • Effects of Cutting Speed and Rake Angle on Knife-Edge Temperature during 90-0 Cutting of Wood
   • Mokuzai Gakkaishi, Volume 31, 1985, pp. 454–459
   • View Record in Scopus
     Citing articles (2)
3. • [3]
   • E. Csanady, E. Magoss, Mechanics of Wood Machining, Springer, Berlin Heidelberg, 2013.
4. • [4]
   • G. Sitkei, E. Csanady
   • Thermal loading in wood cutting tools, Proceedings of the 1st conference on the development on wood science
   • Buckinghamshire, 1994, pp. 359–368
   • View Record in Scopus
     Citing articles (1)
5. • [5]
   • G. Sitkei et al., Theorie des Spanens von Holz. Fortschrittbericht No.1, Acta Fac. Ligniensis Sopron, 1990.
6. • [6]
   • J.Y. Sheikh-Ahmad, C.M. Lewandowski, J.S. Stewart
   • Experimental and numerical method for determining temperature distribution in a wood cutting tool
   • Experimental Heat Transfer, Volume 16, 2003, pp. 255–271
   • View Record in Scopus
      | 
     CrossRef
     Citing articles (7)
7. • [7]
   • C.A. Brebbia and J. Dominguez, Boundary elements an introductory course, WIT Pess/Computational Mechanics Publications, 1992.
8. • [8]
   • F. París and J. Canas, Boundary element method fundamentals and applications, Oxford University Press, 1997.

• ☆
  Selection and peer-review under responsibility of DAAAM International Vienna.

• ⁎ 
  Corresponding author. Tel.: +38733729826; fax: +38733653055.

For further details log on website :
http://www.sciencedirect.com/science/article/pii/S187770581400215X