+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Fundamental studies on mechanism of veneer cutting. V. Numerical analysis of stress distribution in workpiece during cutting without pressure bar. VI. Numerical analysis of stress distribution in workpiece during cutting with sharp bar



Fundamental studies on mechanism of veneer cutting. V. Numerical analysis of stress distribution in workpiece during cutting without pressure bar. VI. Numerical analysis of stress distribution in workpiece during cutting with sharp bar



Mokuzai Gakkaishi Journal of the Japan Wood Research Society 20(6): 250-256, 257-263



(V) Using the finite element approach, a numerical analysis of the stress distribution occurring in a log during slicing was derived for a series of simulated cutting conditions. Photo-elastic models were prepared and fringe analysis confirmed the location and magnitude of both tensile and compressive stresses. (VI) By means of computer simulations and photo-elastic models, the distribution of stress due to the pressure bar in a log being sliced was determined.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 000099129

Download citation: RISBibTeXText


Related references

Fundamental studies on the mechanism of veneer cutting. VII. Numerical analysis of stress distribution in workpiece during cutting without pressure bar (2). Mokuzai Gakkaishi Journal of the Japan Wood Research Society 21(1): 15-21, 1975

Fundamental studies on mechanism of veneer cutting. III. Numerical analysis of stress distribution in workpiece under pressure bar compression (1). Mokuzai Gakkaishi Journal of the Japan Wood Research Society 19(8): 385-391, 1973

Effect of pressure-bar shape on stress behaviour in workpiece in veneer cutting. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 20(9): 405-410, 1974

Fundamental studies on stress distribution and frictional behaviour on interface between tool and chip in veneer cutting. I. Method of cutting resistance measurement with composite tool divided into two parts. II. Stress distribution on tool rake face. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 23(10): 472-479; 480-486, 1977

Fundamental studies on mechanism of veneer cutting. II. An analysis on development of dynamic equilibrium condition in veneer cutting. 1971

Fundamental studies on mechanisms of veneer cutting. I. On behavior of deflection caused in wood by pressure bar compression. II. An analysis on development of dynamic equilibrium condition in veneer cutting. J. Jap. Wood Res. Soc, 17: 3, 96-110, 1971

Fundamental studies on stress distribution and frictional behavior on interface between tool and chip in veneer cutting. I. method of cutting resistance measurement with composite tool divided into two parts. 1977

Fundamental studies on stress distribution and frictional behaviour on interface between tool and chip in veneer cutting. IV. Some considerations on veneer cutting phenomenon by tool with restricted tool-chip contact length. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 24(1): 19-25, 1978

Fundamental studies on stress distribution and frictional behaviour on interface between tool and chip in veneer cutting. V. Effect of pressure bar compression upon stress distribution and friction behaviour on tool rake face. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 24(9): 612-618, 1978

Fundamental studies on stress distribution and frictional behavior on interface between tool and chip in veneer cutting. II. stress distribution on tool rake face. 1977

Distribution of cutting stress on the rake face of the knife in veneer cutting by restricted knife-veneer contact length method. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 20(11): 528-537, 1974

Studies on wood grinding with coated abrasive belts. I. Contact length of abrasive belt on workpiece and stress distribution and behaviour of cutting edge on contact area. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 22(1): 8-14, 1976

Numerical simulation of thermally induced workpiece deformation in turning when using various cutting fluid applications. Journal of Materials Processing Technology 167(2-3): 408-414, 2005

Effects of sliding velocity and inclination angle on the cutting force in veneer slicing by feeding the knife to the workpiece during the sliding of the knife in the direction parallel to the cutting edge. Mokuzai Gakkaishi Journal of the Japan Wood Research Society 32(9): 677-684, 1986

Analysis of the veneer-formation process II. Numerical analysis of cutting stress in lathe check formation by finite element method. Journal of the Japan Wood Research Society 29(12): 877-883, 1983