How to cite this paper
Son, H., Bảy, V., Tuong, T., Truong, B., Tuan, L & Son, H. (2024). Horizontal oscillations of the wood sawing support during the cutting process in a wood sawing line using a vertical bandsaw.Engineering Solid Mechanics, 12(3), 247-258.
Refrences
Abdelrahman, A. A., Esen, I., Daikh, A. A., & Eltaher, M. A. (2023). Dynamic analysis of FG nanobeam reinforced by carbon nanotubes and resting on elastic foundation under moving load. Mechanics Based Design of Structures and Machines, 51(10), 5383-5406.
Adair, D., Ismailov, K., & Jaeger, M. (2018). Vibration of a Beam on an Elastic Foundation Using the Variational Iteration Method. International Journal of Aerospace and Mechanical Engineering, 12(9), 914-919.
Ajayeoba, A. O., Olanipekun, A. A., Ojo, O. O., Oyetunji, O. R., & Raheem, W. A. (2020). VIBRATION EXPOSURE ASSESSMENT OF SAWMILLING OPERATIONS USING HAND–ARM–VIBRATION EXPOSURE ANALYSIS. Technology, 11(12), 33-44.
Akhazhanov, S. B., Vatin, N. I., Akhmediyev, S., Akhazhanov, T. B., Khabidolda, O., & Nurgoziyeva, A. Z. (2023). Beam on a two-parameter elastic foundation: simplified finite element model. Magazine of Civil Engineering, 121(5), 2.
Al-Hosani, K., Fadhil, S., & El-Zafrany, A. (1999). Fundamental solution and boundary element analysis of thick plates on Winkler foundation. Computers & structures, 70(3), 325-336.
Amiri, S. N., & Onyango, M. (2010). Simply supported beam response on elastic foundation carrying repeated rolling concentrated loads. Journal of Engineering Science and Technology, 5(1), 52-56.
Balighate, S. S., & Dhanal, S. (2018). Vibrometer Testing and FFT analysis of Band Saw Swing Frame. Available at SSRN 3221598.
Chen, W. Q., Lü, C. F., & Bian, Z. G. (2004). A mixed method for bending and free vibration of beams resting on a Pasternak elastic foundation. Applied mathematical modelling, 28(10), 877-890.
Coskun, I. (2000). Non-linear vibrations of a beam resting on a tensionless Winkler foundation. Journal of Sound and Vibration, 236(3), 401-411.
Coskun, I., & Engin, H. A. S. A. N. (1999). Non-linear vibrations of a beam on an elastic foundation. Journal of Sound and Vibration, 223(3), 335-354.
De Rosa, M. A., & Maurizi, M. J. (1998). The influence of concentrated masses and Pasternak soil on the free vibrations of Euler beams—Exact solution. Journal of Sound and Vibration, 212(4), 573-581.
Dinev, D. (2012). Analytical solution of beam on elastic foundation by singularity functions. Engineering Mechanics, 19(6), 381-392.
Eisenberger, M. (1994). Vibration frequencies for beams on variable one-and two-parameter elastic foundations. Journal of Sound and Vibration, 176(5), 577-584.
Gendraud, P., Roux, J. C., & Bergheau, J. M. (2003). Vibrations and stresses in band saws: A review of literature for application to the case of aluminium-cutting high-speed band saws. Journal of materials processing technology, 135(1), 109-116.
Gülkan, P., & Alemdar, B. N. (1999). Two-parameter elastic foundation: A revisit. Struct. Eng. Mech, 7, 259-276.
Hadji, L., & Bernard, F. (2020). Bending and free vibration analysis of functionally graded beams on elastic foundations with analytical validation. Advances in materials Research, 9(1), 63-98.
Kacar, A., Tan, H. T., & Kaya, M. O. (2011). Free vibration analysis of beams on variable winkler elastic foundation by using the differential transform method. Mathematical and Computational Applications, 16(3), 773-783.
Khademi-kouhi, M., Ghasemi Ghale-Bahmanmi Ghale-Bahman, A., Farrokh Abadi, A., Mohammad Aliha, M. R., & Jedi, M. (2023). Analysis and investigation of the effect of the Lay-up of layers and angles of fibers on the vibration behavior of FML cylindrical shells of on Pasternak elastic foundation with different boundary conditions. Journal of Vibration and Sound, 11(22), 38-48.
Khademi-Kouhi, M., Ghasemi-Ghalebahman, A., Farrokhabadi, A., & Aliha, M. R. M. (2024). Vibration Characteristics of FML Cylindrical Shell Bonded by Thin Piezoelectric Actuator and Sensor Layer with and Without Fluid–Structure Interaction Resting on Pasternak Elastic Foundation. International Journal of Structural Stability and Dynamics, 2450238.
Kukla, S. (1991). Free vibration of a beam supported on a stepped elastic foundation. Journal of sound and vibration, 149(2), 259-265.
Lamprea-Pineda, A. C., Connolly, D. P., & Hussein, M. F. (2022). Beams on elastic foundations–A review of railway applications and solutions. Transportation Geotechnics, 33, 100696.
Lee, J. K., & Jeong, S. (2016). Flexural and torsional free vibrations of horizontally curved beams on Pasternak foundations. Applied Mathematical Modelling, 40(3), 2242-2256.
Marchal, R., Mothe, F., Denaud, L. E., Thibaut, B., & Bleron, L. (2009). Cutting forces in wood machining–Basics and applications in industrial processes. A review COST Action E35 2004–2008: Wood machining–micromechanics and fracture.
Moradpour, P., Doosthoseini, K., Scholz, F., & Tarmian, A. (2013). Cutting forces in bandsaw processing of oak and beech wood as affected by wood moisture content and cutting directions. Eur. J. Wood Wood Prod, 71(6), 747-754.
Moradpour, P., Scholz, F., Doosthoseini, K., & Tarmian, A. (2016). Measurement of wood cutting forces during bandsawing using piezoelectric dynamometer. Drv. Ind, 67, 79-84.
Motaghian, S. E., Mofid, M., & Alanjari, P. (2011). Exact solution to free vibration of beams partially supported by an elastic foundation. Scientia Iranica, 18(4), 861-866.
Okai, R. (2009). Influence of vibration coupling between bandsaw frame and feed-carriage system on sawdust spillage and surface quality of workpiece during sawing. European Journal of Wood and Wood Products, 67(2), 189-195.
Porankiewicz, B., Marklund, B., Grönlund, A., & Axelsson, B. (2011). Main and normal cutting forces by machining wood of Pinus sylvestris. BioResources, 6(4), 3687-3713.
Samaei, A. T., Aliha, M. R. M., & Mirsayar, M. M. (2015). Frequency analysis of a graphene sheet embedded in an elastic medium with consideration of small scale. Materials Physics & Mechanics, 22(2).
Timoshenko, S. (1941). Strength of materials, part II. Advanced theory and problems, 245.
Yang, B., & Mote Jr, C. D. (1990). Vibration control of band saws: Theory and experiment. Wood science and technology, 24(4), 355-373.
Yokoyama, T. (1991). Vibrations of timoshenko beam‐columns on two‐parameter elastic foundations. Earthquake engineering & structural dynamics, 20(4), 355-370.
Yokoyama, T. (1996). Vibration analysis of Timoshenko beam-columns on two-parameter elastic foundations. Computers & Structures, 61(6), 995-1007.
Zhang, Y. W., Ding, H. X., She, G. L., & Tounsi, A. (2023). Wave propagation of CNTRC beams resting on elastic foundation based on various higher-order beam theories. Geomechanics and Engineering, 33(4), 381-391.
Zhou, D. (1993). A general solution to vibrations of beams on variable Winkler elastic foundation. Computers & structures, 47(1), 83-90.
Adair, D., Ismailov, K., & Jaeger, M. (2018). Vibration of a Beam on an Elastic Foundation Using the Variational Iteration Method. International Journal of Aerospace and Mechanical Engineering, 12(9), 914-919.
Ajayeoba, A. O., Olanipekun, A. A., Ojo, O. O., Oyetunji, O. R., & Raheem, W. A. (2020). VIBRATION EXPOSURE ASSESSMENT OF SAWMILLING OPERATIONS USING HAND–ARM–VIBRATION EXPOSURE ANALYSIS. Technology, 11(12), 33-44.
Akhazhanov, S. B., Vatin, N. I., Akhmediyev, S., Akhazhanov, T. B., Khabidolda, O., & Nurgoziyeva, A. Z. (2023). Beam on a two-parameter elastic foundation: simplified finite element model. Magazine of Civil Engineering, 121(5), 2.
Al-Hosani, K., Fadhil, S., & El-Zafrany, A. (1999). Fundamental solution and boundary element analysis of thick plates on Winkler foundation. Computers & structures, 70(3), 325-336.
Amiri, S. N., & Onyango, M. (2010). Simply supported beam response on elastic foundation carrying repeated rolling concentrated loads. Journal of Engineering Science and Technology, 5(1), 52-56.
Balighate, S. S., & Dhanal, S. (2018). Vibrometer Testing and FFT analysis of Band Saw Swing Frame. Available at SSRN 3221598.
Chen, W. Q., Lü, C. F., & Bian, Z. G. (2004). A mixed method for bending and free vibration of beams resting on a Pasternak elastic foundation. Applied mathematical modelling, 28(10), 877-890.
Coskun, I. (2000). Non-linear vibrations of a beam resting on a tensionless Winkler foundation. Journal of Sound and Vibration, 236(3), 401-411.
Coskun, I., & Engin, H. A. S. A. N. (1999). Non-linear vibrations of a beam on an elastic foundation. Journal of Sound and Vibration, 223(3), 335-354.
De Rosa, M. A., & Maurizi, M. J. (1998). The influence of concentrated masses and Pasternak soil on the free vibrations of Euler beams—Exact solution. Journal of Sound and Vibration, 212(4), 573-581.
Dinev, D. (2012). Analytical solution of beam on elastic foundation by singularity functions. Engineering Mechanics, 19(6), 381-392.
Eisenberger, M. (1994). Vibration frequencies for beams on variable one-and two-parameter elastic foundations. Journal of Sound and Vibration, 176(5), 577-584.
Gendraud, P., Roux, J. C., & Bergheau, J. M. (2003). Vibrations and stresses in band saws: A review of literature for application to the case of aluminium-cutting high-speed band saws. Journal of materials processing technology, 135(1), 109-116.
Gülkan, P., & Alemdar, B. N. (1999). Two-parameter elastic foundation: A revisit. Struct. Eng. Mech, 7, 259-276.
Hadji, L., & Bernard, F. (2020). Bending and free vibration analysis of functionally graded beams on elastic foundations with analytical validation. Advances in materials Research, 9(1), 63-98.
Kacar, A., Tan, H. T., & Kaya, M. O. (2011). Free vibration analysis of beams on variable winkler elastic foundation by using the differential transform method. Mathematical and Computational Applications, 16(3), 773-783.
Khademi-kouhi, M., Ghasemi Ghale-Bahmanmi Ghale-Bahman, A., Farrokh Abadi, A., Mohammad Aliha, M. R., & Jedi, M. (2023). Analysis and investigation of the effect of the Lay-up of layers and angles of fibers on the vibration behavior of FML cylindrical shells of on Pasternak elastic foundation with different boundary conditions. Journal of Vibration and Sound, 11(22), 38-48.
Khademi-Kouhi, M., Ghasemi-Ghalebahman, A., Farrokhabadi, A., & Aliha, M. R. M. (2024). Vibration Characteristics of FML Cylindrical Shell Bonded by Thin Piezoelectric Actuator and Sensor Layer with and Without Fluid–Structure Interaction Resting on Pasternak Elastic Foundation. International Journal of Structural Stability and Dynamics, 2450238.
Kukla, S. (1991). Free vibration of a beam supported on a stepped elastic foundation. Journal of sound and vibration, 149(2), 259-265.
Lamprea-Pineda, A. C., Connolly, D. P., & Hussein, M. F. (2022). Beams on elastic foundations–A review of railway applications and solutions. Transportation Geotechnics, 33, 100696.
Lee, J. K., & Jeong, S. (2016). Flexural and torsional free vibrations of horizontally curved beams on Pasternak foundations. Applied Mathematical Modelling, 40(3), 2242-2256.
Marchal, R., Mothe, F., Denaud, L. E., Thibaut, B., & Bleron, L. (2009). Cutting forces in wood machining–Basics and applications in industrial processes. A review COST Action E35 2004–2008: Wood machining–micromechanics and fracture.
Moradpour, P., Doosthoseini, K., Scholz, F., & Tarmian, A. (2013). Cutting forces in bandsaw processing of oak and beech wood as affected by wood moisture content and cutting directions. Eur. J. Wood Wood Prod, 71(6), 747-754.
Moradpour, P., Scholz, F., Doosthoseini, K., & Tarmian, A. (2016). Measurement of wood cutting forces during bandsawing using piezoelectric dynamometer. Drv. Ind, 67, 79-84.
Motaghian, S. E., Mofid, M., & Alanjari, P. (2011). Exact solution to free vibration of beams partially supported by an elastic foundation. Scientia Iranica, 18(4), 861-866.
Okai, R. (2009). Influence of vibration coupling between bandsaw frame and feed-carriage system on sawdust spillage and surface quality of workpiece during sawing. European Journal of Wood and Wood Products, 67(2), 189-195.
Porankiewicz, B., Marklund, B., Grönlund, A., & Axelsson, B. (2011). Main and normal cutting forces by machining wood of Pinus sylvestris. BioResources, 6(4), 3687-3713.
Samaei, A. T., Aliha, M. R. M., & Mirsayar, M. M. (2015). Frequency analysis of a graphene sheet embedded in an elastic medium with consideration of small scale. Materials Physics & Mechanics, 22(2).
Timoshenko, S. (1941). Strength of materials, part II. Advanced theory and problems, 245.
Yang, B., & Mote Jr, C. D. (1990). Vibration control of band saws: Theory and experiment. Wood science and technology, 24(4), 355-373.
Yokoyama, T. (1991). Vibrations of timoshenko beam‐columns on two‐parameter elastic foundations. Earthquake engineering & structural dynamics, 20(4), 355-370.
Yokoyama, T. (1996). Vibration analysis of Timoshenko beam-columns on two-parameter elastic foundations. Computers & Structures, 61(6), 995-1007.
Zhang, Y. W., Ding, H. X., She, G. L., & Tounsi, A. (2023). Wave propagation of CNTRC beams resting on elastic foundation based on various higher-order beam theories. Geomechanics and Engineering, 33(4), 381-391.
Zhou, D. (1993). A general solution to vibrations of beams on variable Winkler elastic foundation. Computers & structures, 47(1), 83-90.