Skip to main content
SpringerLink
Log in

Principal developments in band saw vibration and stability research

  • Originalarbeiten
  • Published:
Holz als Roh- und Werkstoff Aims and scope Submit manuscript

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

References

  • Adler, A. A., Reismann, H. 1974. Moving loads on an elastic plate strip. J. Appl. Mech. 41: 713–718

    Google Scholar 

  • Allen, F. E. 1972. The merits of the high strain bandmill Forest Ind. Rev. 4(2): 9–15

    CAS  Google Scholar 

  • Allen, F. E. 1973. High Strain/Thin Kerf. Modern sawmill techniques. Proc. First Sawmill Clinic. Portland, Oregon, Feb. 1973. pp. 167–181.

  • Allen, F. E. 1975. Some considerations in machining southern hard-woods with multiple bandsaws. FPRS Seperate No. MS-75-S55

  • Allen, F. E. 1976. Part One: Some considerations of bandmill feeds, speeds, design. Part Two: Some considerations in roll tensioning bandsaw blades. Proc. Lumber Manufacturing Conf., Seattle, Washington Nov. 1976, pp 1–24

  • Alspaugh, D. W. 1967. Torsional vibration of a moving band. J. Frank. Inst. 283 (4): 328–338

    Article  Google Scholar 

  • Ames, W. F., Lee, S. Y., Zaiser, J. N. 1968. Nonlinear vibration of a travelling threadline. Int. J. Nonlinear Mech. 3: 449–469

    Article  Google Scholar 

  • Anderson, D. L. 1974. Natural frequency of lateral vibration of a multiple span moving bandsaw. Canada West. Forest Prod. Lab. January 1974

  • Aoyama, T. 1958. The effect of feeding and cutting speedto the heat generation on saw tooth. J. Jap. Wood Res. Soc. 4 (2): 55–59.

    Google Scholar 

  • Aoyama, T. 1970. Tensioning of bandsaw blades by rolls, I. Calculation of crown, II. Calculation of tension. J. Jap. Wood Res. Soc. 16 (8): 370–381

    Google Scholar 

  • Aoyama, T. 1971. Tensioning of bandsaw blades by rolls. III. Effect of Saw Blade Thickness. IV. Effect of Saw Blade Width. J. Jap. Wood Res. Soc. 17 (5): 188–202

    Google Scholar 

  • Aoyama, T. 1974. Tensioning of bandsaw blades by rolls. V. The Effects of Rolling Repetition, Saw Blade Hardness, and Rolls With Different Sectional Diameters. J. Jap. Wood Res. Soc. 20 (11): 523–527

    Google Scholar 

  • Archibald, F. R., Emslie, A. G. 1958. The Vibration of a String Having Uniform Motion Along Its Length. J. Appl. Mech. 25: 347–348

    Google Scholar 

  • Bapat, V. A., Srinivasan, P., 1967. Nonlinear Transverse Oscillations in Travelling Strings by the Method of Harmonic Balance. J. Appl. Mech. 34 (3): 775–777

    Google Scholar 

  • Barakat, R. 1968. Transverse Vibrations of a Moving Rod. J. Acoust. Soc. Am. 43 (3): 533–539.

    Article  Google Scholar 

  • Berlin, E. P. 1969. Experimental Investigations of the Effect of Aerostatic Guides on the Tranverse Stability of a bandsaw blade. Lesn. Zh. 12 (2): 85–87

    Google Scholar 

  • Birkeland, R. 1968. Results of Measurements of the Sawing Accuracy of Circular Sawmills and Bandmills. Norsk Skogindustri 22 (6): 192–211

    Google Scholar 

  • Breznjak, M., Moen, K. 1972. On the Lateral Movement of the bandsaw blade Under Various Sawing Conditions. Norsk Treteknisk Inst. Rep. No. 46

  • Cho, H. S., Mote, C. D., Jr. 1977. Aerodynamically Induced Vibration and Noise in Circular Saws. Proc. Wood Mach. Sem. Un. Cal. Forest Prod Lab. pp. 207–245

  • Chubachi, T. 1957. Lateral Vibration of Axially Moving Wire or Belt Form Materials—Experiment. Bull. JSME 23 (127): 205–210

    Google Scholar 

  • Chubachi, T. 1958. Lateral Vibration of Axially Moving Wire or Belt Form Materials. Bull. JSME 1 (1): 24–29

    Google Scholar 

  • Doi, O. 1964. Heat tensioning of band saw blade. Bull. ISME 67 (551): 1838–1848.

    Google Scholar 

  • Doi, O., Kikukawa, S., Saito, I., Sugihara, H., Tanijiri, S. 1970. Studies on sawing with a double-edged bandsaw blade. Canada Dept. Fish. & Forest. Translation No. OOFF 148

  • Doyle, E., Hornung, K. G. 1969. Lateral vibration of V-belts. ASME Paper No. 69-VIBR-29

  • Eklund, U. 1972 The daylight gap as a measure for the tensioning of bandsaw blades. Svenska Träforskningsinstitutet Rep. No. 227 (A)

  • Eklund, U. 1974. Pressure Guides at timber receiving bandsaws. Svenska Träforskningsinstitute Rep. No. 244

  • Ellis, R. W., Mote, C. D., Jr. 1977. A feedback vibration controller for circular saws. Proc. IACC. pp. 1193–1199

  • Feoktistov, A. E. 1960. The stability of sawbldes under feed pressure. Les. Zh. 3 (3): 95–106

    Google Scholar 

  • Flaherty, F. T., Jr. 1968. Transient resonance of an ideal string under a load moving with varying speed. Int. J. Solids Structure. 4: 1221–1231

    Article  Google Scholar 

  • Foschi, R. O. 1975. The light gap technique as a tool for measuring residual stresses in bandsaw blades. Wood Sci. Technol. 9: 243–255

    Article  Google Scholar 

  • Foschi, R. O., Porter, A. W. 1970. Lateral and edge stability of high strain bandsaws Canada, West. Forest Prod. Lab. Rep. No. VP-X-68

  • Fryba, L. 1972. Vibration of solids and structures under moving loads. Noordhoff Int. Publ., Groningen, The Netherlands

    Google Scholar 

  • Housner, G. W. 1952. Bending vibrations of a pipeline containing flowing fluid. J. Appl. Mech. 19: 205–209

    Google Scholar 

  • Hsiang, P. C. 1966. Vibrations of a moving threadline having a geometric nonlinearity. M. S. Thesis. Un. Delaware

  • Hsu, T. R., Trasi, S. R. 1976. On the analysis of residual stresses introduced in sheet metal by thermal shock treatment. J. Appl. Mech. 43: 117–123

    Google Scholar 

  • Jones, D. S. 1968. A psychiatric examination of a bandsaw... or why a bandsaw cracks. Australian Timber J. June 1968, pp. 63–69

  • Kim, Y. I., Tabarrok, B. 1972. On the nonlinear vibration of travelling strings. J. Frank. Inst. 293 (6): 381–399

    Article  Google Scholar 

  • Kirbach, E., Bonac, T. 1977a. The effect of tensioning and wheel tilting on the torsional and lateral fundamental frequencies of bandsaw blades. Wood and Fiber (in press)

  • Kirbach, E., Bonae, T. 1977b. An experimental study on the lateral natural frequency of bandsaw blades. Wood and Fiber (submitted for poblication)

  • Kitayama, S., Sugihara, H. 1968. On noise analysis of a bandsaw machine. J. Jap. Wood Res. Soc. 14 (3): 140–147

    Google Scholar 

  • Krilov, A. 1975. Einige Aspekte der Konstruktion von Bandsägemaschienen mit hoher Blattspannung. Holztechnologie 16 (2): 109–111

    Google Scholar 

  • Labara, J. J. 1974. The axially stressed LIM reaction rail subjected to a moving load. Int. J. Solids Structures 10: 1155–1170

    Article  Google Scholar 

  • Lai, J., Chen, C. H. 1971. Vibration and dynamic stability of an axially moving belt. ASME Paper No. 71-VIBR-31

  • Liu, H. S., Mote, C. D., Jr. 1974. Dynamic response of pipes transporting fluids. Trans ASME 96 (B): 591–596

    Google Scholar 

  • Mahalingam, S. 1957. Transverse vibrations of power transmission chains. British. J. Appl. Phys. 8: 145–148

    Article  Google Scholar 

  • Miranker, W. L. 1960. The wave equation in a, medium in motion. IBM J. R & D 4 (1): 36–42

    Article  Google Scholar 

  • Mote, C. D., Jr. 1965a. A study of bandsaw vibrations. J. Frank. Inst. 279 (6): 430–444

    Article  Google Scholar 

  • Mote, C. D., Jr. 1965b. Some dynamic characteristics of bandsaws. Forest Prod. J. 15 (1): 37–41

    Google Scholar 

  • Mote, C. D., Jr. 1966. On the nonlinear oscillations of an axially moving string. J. Appl. mech. 33: 463

    Google Scholar 

  • Mote, C. D., Jr. 1968a. Dynamic stability of an axially moving band. J. Frank. Inst. 285 (5): 329–346

    Article  Google Scholar 

  • Mote, C. D. Jr. 1968b. Divergence buckling of an edge-loaded axially moving band. Int. J. Mech. Sci. 10: 281–295

    Article  Google Scholar 

  • Mote, C. D. Jr. 1968c. Parametric excitation of an axially moving string. J. Appl. Mech. 35 (1): 171–172

    Google Scholar 

  • Mote, C. D., Jr. 1972. Dynamic stability of axially moving materials. Shock & Vibration Digest 4 (4): 2–11

    Article  Google Scholar 

  • Mote, C. D., Jr. 1975. Stability of systems transporting accelerating axially moving materials. Trans. ASME 97 (G): 96–98.

    Google Scholar 

  • Mote, C. D., Jr., Holøyen, S. 1977. Feedback control of circular saw temperature using induction heating. Trans. ASME Series B (in press)

  • Mote, C. D., Jr. 1966. Theoretical and experimental bandsaw vibrations. Trans. ASME 88 (B): 151–156

    Google Scholar 

  • Mote, C. D., Jr., Thurman, A. L. 1971. Oscillation modes of an axially moving material J. Appl. Mec. 38: 279–280

    Google Scholar 

  • Mote, C. D., Jr., Szymani, R. 1977. Principal developments in thin circular saw vibration and control research. Part 1: Vibration of circular saws. Holz Roh-Werkstoff 35 (5): 188–196

    Google Scholar 

  • Moustafa, M. A., Salman F. K. 1976. Dynamic properties of a moving threadline. Trans. ASME 98 (B): 368–378

    Google Scholar 

  • Naguleswaran, S., Williams C. J. H. 1968a. Lateral vibration of bandsaw blades, pulley belts, and the like. Int. J. Mech. Sci. 10: 239–250

    Article  Google Scholar 

  • Naguleswaran, S., Williams, C. J. H. 1968b. Lateral vibration of a pipe conveying a fluid. J. Mech. Eng. Sci. 10 (3): 228–238

    Google Scholar 

  • Niordson, F.I.N. 1953. Vibration of a cylindrical tube containing a flowing fluid. Trans. Royal Inst. Tech. Sweden 73

  • Novosel'tsev, V. P., Seleznev, A. F. 1974. Effect of changes in tension force on the dynamic stability of frame saws and band saws. Lens. Zh. 17 (6): 75–78

    Google Scholar 

  • Pahlitzsch, G. 1962. Internationaler Stand der Forschung auf dem Gebiet des Sägens. Holz Roh-Werkstoff 20 (10): 381–392

    Google Scholar 

  • Pahlitsch, G., Dziobek, K. 1959. Untersuchungen an einer horizontalen Blockbandsäge. Holz Roh-Werkstoff 17 (9): 364–376

    Google Scholar 

  • Pahlitsch, G., Eckert, U. 1975 Investigations, of bandsaw noise. Holz- und Kunststoffverarbeitung 10 (7): 518–522

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1972. Die Beanspruchung von Bandsägeblättern: Spannungen und Festigkeitsgrenzen. Holz Roh-Werkstoff 30 (5): 165–174

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1973. Erittlung, der Steifheit von Bandsägeblättern. Holz Roh-Werkstoff 31 (4): 161–167

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1974a Beurteilungskriterien, für die Auslenkungen von Bandsägeblättern. Erste Mitteilung. Holz Roh-Werkstoff 32 (2): 52–57

    Google Scholar 

  • Pahlitsch, G., Puttkammer, K. 1974b. Beurteilungskriterien für die Auslenkungen von Bandsägeblättern. Zweite Mitteilung. Holz Roh-Werkstoff, 32 (8): 295–302

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1975. Schnittversuche beim Bandsägen. Holz Roh-Werkstoff 33 (5): 181–186

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1976a. Schnittversuche beim Bandsägen. Holz Roh-Werkstoff 33 (1): 17–21

    Google Scholar 

  • Pahlitzsch, G., Puttkammer, K. 1976b. Beurteilungskriterien für die Auslenkungen von Bandsägeblättern. Dritte Mitteilung. Holz Roh.-Werkstoff 34: 413–426

    Article  Google Scholar 

  • Porter, A. W. 1971. Some engineering considerations of high strain band saws Forest Prod. J. 21 (4): 24–32

    Google Scholar 

  • Rhodes, J. E., Jr. 1970. Parametric self-excitation of a belt into transverse vibration. J. Appl. Mech. 37 (4): 1055–1060

    Google Scholar 

  • Sack, R. A. 1954. Transverse oscillations in travelling strings. British J. Appl. Phys. 5: 224–226

    Article  Google Scholar 

  • Sagartz, M. J., Forrestal, M. J. 1975. Motion of a stretched string loaded by an accelerating force. J. Appl. Mech. 43 (2): 505–506

    Google Scholar 

  • Saljé, E., Thomas, D. 1976. A novel guide for band saw blades. Holz-Zbl. 102 (148): 2109

    Google Scholar 

  • Sanev, V. I. 1969. Heating of bandsaw blades while sawing wood. Lesn. Zh. 12 (3): 64–67

    Google Scholar 

  • Sanev, V. I., Plujusnin, V. N. 1969. Theoretical investigation of the temperature distribution across the width of the blade of a bandsaw edger. Lesn. Zh. 12 (5): 61–67

    Google Scholar 

  • Sanev, V. I., Plujusnin, V. N. 1970. Temperature gradient along the length of bandsaw blades while sawing wood. Lesn. Zh. 13 (2): 59–64

    Google Scholar 

  • Shih, L. Y. 1971. Three dimensional nonlinear vibration of a travelling string. Int. J. Non-Linear Mech. 6: 427–434

    Article  Google Scholar 

  • Shtol'tser, N. G. 1976. Combined automatic regulation of feed speed in saws. Lesn. Zh. 3: 122–126

    Google Scholar 

  • Simpson, A. 1972. On the oscillatory motions of translating elastic cables. J. Sound & Vibration 20 (2): 177–189

    Article  Google Scholar 

  • Simpson, A. 1973. Transverse modes and frequencies of beams translating between fixed end supports. J. Mech. Eng. Sci. 15 (3) 159–164

    Google Scholar 

  • Sinha, S. C., Srinivasan, P. 1975. Free transverse vibrations of an axially moving mass. Rev. Roum. Sci. Tech. 20 (4): 535–553.

    Google Scholar 

  • Skutch, R. 1897. Über die Bewegung eines gespannten Fadens, welcher gezwungen ist, durch zwei feste Punkte mit einer konstanten Geschwindigkeit, zu gehen und zwischen denselben in Transver-salschwingungen von geringer Amplitude versetzt wird. Annalen der Physik und Chemie 61: 190–195

    Google Scholar 

  • Soler, A. I. 1968. Vibration and stability of a moving band. J. Frank. Inst. 286 (4): 295–307

    Article  Google Scholar 

  • Sugihara, H. 1953. Forces acting on a bandsaw. Jap. Wood. Ind. 8 (5): 38–45

    Google Scholar 

  • Sugihara, H. 1965. The influence of temperature on the stability of saw blades. IUFRO Proc. Vol. 3, Sect. 41

  • Sugihara, H. 1977. Theory on running stability of bandsaw blades. Proc. Wood Mach. Sem. Un. Cal. Forest Prod. Lab., pp. 99–110

  • Swope, R. D., Ames, W. F. 1963. Vibrations of a moving threadline. J. Frank. Inst. 275 (1): 36–55

    Article  Google Scholar 

  • Szymani, R., Mote, C. D. Jr. 1977. Principal developments in thin circular saw vibration and control research. Part 2: Reduction and control of saw vibration. Holz Roh-Werkstoff 35 (6): 219–225

    Article  Google Scholar 

  • Tabarrok, B., Leech, C. M., Kim, Y. I. 1974. On the dynamics of an axially moving bean. J. Frank. Inst. 297 (3): 201–220

    Article  Google Scholar 

  • Thunell, B. 1970. Die Stabilität des Bandsägeblattes. Holz Roh-Werkstoff 28 (9): 343–348

    Google Scholar 

  • Thunell, B. 1971. Dimensional accuracy in sawing. Proc. Wood Mach. Sem. Un. Cal. Forest Prod. Lab., pp. 39–51

  • Thunell, B. 1972. The stresses in a bandsaw blade. Paperi ja Puu 54 (11): 759–764

    Google Scholar 

  • Thunell, B. 1973. Ergonomic aspects: noise problems in the sawmill. Proc. Wood Mach. Sem. Un. Cal. Forest Prod. Lab., pp. 193–204

  • Thurman, A. L., Mote, C. D., Jr. 1969a. Free, periodic nonlinear oscillation of an axially moving strip. J. Appl. Mech. 36: 83–91

    Google Scholar 

  • Thurman A. L., Mote, C. D., Jr. 1969b. Nonlinear oscillation of a cylinder containing a flowing fluid. Trans. ASME 91 (B): 1147–1155

    Google Scholar 

  • Ting, E. C., Genin, J., Ginsberg, J. H. 1974. A general algorthm for moving mass problems. J. Sound & Vibration 33 (1): 49–58

    Article  Google Scholar 

  • Trubnikov, I. I. 1965a. Stresses in bandsaw blades subjected to surface tensioning. Lesn. Zh. 8 (2): 104–108

    Google Scholar 

  • Trubnikov, I. I. 1965b. Fatigue failure of band saw blades. Lesn. Zh. 8 (6): 91–93

    Google Scholar 

  • Wüster, E. 1966. Die Berechnung der Reckvorspannungen in Gatter-und Bandsägeblättern. Holz Roh-Werkstoff 24 (14): 134–144

    Article  Google Scholar 

  • Yurev, Y. I., Veselkov, V. I. 1972. Effect of the operation of cutting the teeth on the stress state of band resaws. Lesn. Zh. 15 (1): 65–67

    Google Scholar 

Download references

Author information

Author notes

  1. R. Szymni (Professor, Formerly Assistant Specialist)

    Present address: Department of Forest Products, Oregon State University, Corvallis, Oregon

  2. A. G. Ulsoy (Graduate Student, Research Assistant) & C. D. Mote Jr (Professor and Vice Chairman, Research Engineer)

    Present address: Forest Products Laboratory, Richmond

Authors and Affiliations

  1. Department of Mechanical Engineering, University of California, 94720, Berkeley, Cal., USA

    A. G. Ulsoy (Graduate Student, Research Assistant), C. D. Mote Jr (Professor and Vice Chairman, Research Engineer) & R. Szymni (Professor, Formerly Assistant Specialist)

Authors
  1. A. G. Ulsoy
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. C. D. Mote Jr
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. R. Szymni
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Ulsoy, A.G., Mote, C.D. & Szymni, R. Principal developments in band saw vibration and stability research. Holz als Roh-und Werkstoff 36, 273–280 (1978). https://doi.org/10.1007/BF02610748

Download citation

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF02610748

Keywords

Search

Navigation