ULOZAS, Ričardas Viktoras. A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 53, n.1, p. 26-47, august 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/>. Date accessed: 19 apr. 2024. doi:http://dx.doi.org/.
Ulozas, R. (2007). A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms. Strojniški vestnik - Journal of Mechanical Engineering, 53(1), 26-47. doi:http://dx.doi.org/
@article{.,
author = {Ričardas Viktoras Ulozas},
title = {A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {53},
number = {1},
year = {2007},
keywords = {Rolamite type mechanisms; slipping; vibrations; dynamic models; },
abstract = {This paper looks at theoretical research of the dynamic model of the "roller-band" system of the Rolamite-type mechanism (RTM). The dynamic model of the "roller-band" system of the RTM is described by differential equations and is investigated in two ways, i.e., when the system is not influenced by the excitation of vibrations, and when it is influenced by them. We have established that with the parameters of excitation of vibration it is possible to operate the parameters of a non-slipping zone. This allows us to assume that in a real Rolamite-type mechanism it is possible to operate on the friction between the structural elements of the RTM. Experimental research on the dynamics of the Rolamite-type mechanism with vibrating elements was done in three directions: research on the dynamic processes running in the RTM roller-band system; research on the processes of friction-control between the elements of the RTM; and research on the dynamic processes running in the Rolamite vibromotors. The increase of the supply-voltage amplitude, the decrease of the force-load magnitude of the flexible band, and the decrease of the angle of the wrapping of the roller by the flexible band cause an increase in the amplitude of the roller vibrations. An RTM with rotating vibrating rollers, compared with the vibrating rollers of the other type, has a better bearing capacity and is much more sensitive. The highest synchronicity of rotation of the rotors is provided by a Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations that simultaneously rotates both rotors. This is compared with the Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations, which rotates only one rotor.},
issn = {0039-2480}, pages = {26-47}, doi = {},
url = {https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/}
}
Ulozas, R. 2007 August 53. A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 53:1
%A Ulozas, Ričardas Viktoras %D 2007 %T A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms %B 2007 %9 Rolamite type mechanisms; slipping; vibrations; dynamic models; %! A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms %K Rolamite type mechanisms; slipping; vibrations; dynamic models; %X This paper looks at theoretical research of the dynamic model of the "roller-band" system of the Rolamite-type mechanism (RTM). The dynamic model of the "roller-band" system of the RTM is described by differential equations and is investigated in two ways, i.e., when the system is not influenced by the excitation of vibrations, and when it is influenced by them. We have established that with the parameters of excitation of vibration it is possible to operate the parameters of a non-slipping zone. This allows us to assume that in a real Rolamite-type mechanism it is possible to operate on the friction between the structural elements of the RTM. Experimental research on the dynamics of the Rolamite-type mechanism with vibrating elements was done in three directions: research on the dynamic processes running in the RTM roller-band system; research on the processes of friction-control between the elements of the RTM; and research on the dynamic processes running in the Rolamite vibromotors. The increase of the supply-voltage amplitude, the decrease of the force-load magnitude of the flexible band, and the decrease of the angle of the wrapping of the roller by the flexible band cause an increase in the amplitude of the roller vibrations. An RTM with rotating vibrating rollers, compared with the vibrating rollers of the other type, has a better bearing capacity and is much more sensitive. The highest synchronicity of rotation of the rotors is provided by a Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations that simultaneously rotates both rotors. This is compared with the Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations, which rotates only one rotor. %U https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/ %0 Journal Article %R %& 26 %P 22 %J Strojniški vestnik - Journal of Mechanical Engineering %V 53 %N 1 %@ 0039-2480 %8 2017-08-18 %7 2017-08-18
Ulozas, Ričardas. "A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms." Strojniški vestnik - Journal of Mechanical Engineering [Online], 53.1 (2007): 26-47. Web. 19 Apr. 2024
TY - JOUR AU - Ulozas, Ričardas Viktoras PY - 2007 TI - A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - Rolamite type mechanisms; slipping; vibrations; dynamic models; N2 - This paper looks at theoretical research of the dynamic model of the "roller-band" system of the Rolamite-type mechanism (RTM). The dynamic model of the "roller-band" system of the RTM is described by differential equations and is investigated in two ways, i.e., when the system is not influenced by the excitation of vibrations, and when it is influenced by them. We have established that with the parameters of excitation of vibration it is possible to operate the parameters of a non-slipping zone. This allows us to assume that in a real Rolamite-type mechanism it is possible to operate on the friction between the structural elements of the RTM. Experimental research on the dynamics of the Rolamite-type mechanism with vibrating elements was done in three directions: research on the dynamic processes running in the RTM roller-band system; research on the processes of friction-control between the elements of the RTM; and research on the dynamic processes running in the Rolamite vibromotors. The increase of the supply-voltage amplitude, the decrease of the force-load magnitude of the flexible band, and the decrease of the angle of the wrapping of the roller by the flexible band cause an increase in the amplitude of the roller vibrations. An RTM with rotating vibrating rollers, compared with the vibrating rollers of the other type, has a better bearing capacity and is much more sensitive. The highest synchronicity of rotation of the rotors is provided by a Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations that simultaneously rotates both rotors. This is compared with the Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations, which rotates only one rotor. UR - https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/
@article{{}{.},
author = {Ulozas, R.},
title = {A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {53},
number = {1},
year = {2007},
doi = {},
url = {https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/}
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TY - JOUR AU - Ulozas, Ričardas Viktoras PY - 2017/08/18 TI - A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 53, No 1 (2007): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - Rolamite type mechanisms, slipping, vibrations, dynamic models, N2 - This paper looks at theoretical research of the dynamic model of the "roller-band" system of the Rolamite-type mechanism (RTM). The dynamic model of the "roller-band" system of the RTM is described by differential equations and is investigated in two ways, i.e., when the system is not influenced by the excitation of vibrations, and when it is influenced by them. We have established that with the parameters of excitation of vibration it is possible to operate the parameters of a non-slipping zone. This allows us to assume that in a real Rolamite-type mechanism it is possible to operate on the friction between the structural elements of the RTM. Experimental research on the dynamics of the Rolamite-type mechanism with vibrating elements was done in three directions: research on the dynamic processes running in the RTM roller-band system; research on the processes of friction-control between the elements of the RTM; and research on the dynamic processes running in the Rolamite vibromotors. The increase of the supply-voltage amplitude, the decrease of the force-load magnitude of the flexible band, and the decrease of the angle of the wrapping of the roller by the flexible band cause an increase in the amplitude of the roller vibrations. An RTM with rotating vibrating rollers, compared with the vibrating rollers of the other type, has a better bearing capacity and is much more sensitive. The highest synchronicity of rotation of the rotors is provided by a Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations that simultaneously rotates both rotors. This is compared with the Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations, which rotates only one rotor. UR - https://www.sv-jme.eu/sl/article/a-theoretical-and-experimental-investigation-of-the-dynamics-of-rolamite-type-mechanisms/
Ulozas, Ričardas"A Theoretical and Experimental Investigation of the Dynamics of Rolamite-Type Mechanisms" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 53 Number 1 (18 August 2017)
Strojniški vestnik - Journal of Mechanical Engineering 53(2007)1, 26-47
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
This paper looks at theoretical research of the dynamic model of the "roller-band" system of the Rolamite-type mechanism (RTM). The dynamic model of the "roller-band" system of the RTM is described by differential equations and is investigated in two ways, i.e., when the system is not influenced by the excitation of vibrations, and when it is influenced by them. We have established that with the parameters of excitation of vibration it is possible to operate the parameters of a non-slipping zone. This allows us to assume that in a real Rolamite-type mechanism it is possible to operate on the friction between the structural elements of the RTM. Experimental research on the dynamics of the Rolamite-type mechanism with vibrating elements was done in three directions: research on the dynamic processes running in the RTM roller-band system; research on the processes of friction-control between the elements of the RTM; and research on the dynamic processes running in the Rolamite vibromotors. The increase of the supply-voltage amplitude, the decrease of the force-load magnitude of the flexible band, and the decrease of the angle of the wrapping of the roller by the flexible band cause an increase in the amplitude of the roller vibrations. An RTM with rotating vibrating rollers, compared with the vibrating rollers of the other type, has a better bearing capacity and is much more sensitive. The highest synchronicity of rotation of the rotors is provided by a Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations that simultaneously rotates both rotors. This is compared with the Rolamite vibromotor with two rotors and a piezoelectric converter of vibrations, which rotates only one rotor.