Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum

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Izvoz citacije: ABNT
ZUPANČIČ, Barbara ;NIKONOV, Anatolij ;FLORJANČIČ, Urška ;EMRI, Igor .
Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 53, n.10, p. 696-705, august 2017. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/>. Date accessed: 29 mar. 2024. 
doi:http://dx.doi.org/.
Zupančič, B., Nikonov, A., Florjančič, U., & Emri, I.
(2007).
Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum.
Strojniški vestnik - Journal of Mechanical Engineering, 53(10), 696-705.
doi:http://dx.doi.org/
@article{.,
	author = {Barbara  Zupančič and Anatolij  Nikonov and Urška  Florjančič and Igor  Emri},
	title = {Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {53},
	number = {10},
	year = {2007},
	keywords = {time-dependent constitutive modeling; transmission belts; viscoelastic analysis; mechanical spectrum; },
	abstract = {A drive belt's durability is a critical factor for the sustainable operation of engines. Thus, understanding the mechanisms that affect their durability is extremely important. In this paper we present the continuation of our research on the time-dependent behavior of dynamically loaded elastomeric products. For this purpose the constitutve model has been developed, which made possible the analyses of the stress-strain state [1]. The development of the costitutive model is based on the modelling of the transmission belts when exposed to tooth-like periodic mechanical loading during the operation of the engine. Within each loading cycle the elastomeric material undergoes a combination of creep and the retardation process. Under certain conditions, defined by the drive belt's geometry and the pulleys' angular velocity, the retardation process between two loadings cannot be fully completed to a strain-free state. Consequently, the strain state starts to accumulate, which leads to hardening of the material, crack formation, and ultimately to the failure of the belt. The results have shown that there exists some critical loading conditions for the strain-accumulation process to occur We can predict that the product will almost certainly fail if it operates under critical conditions, which depend on the retardation time (location of the spectrum). The magnitude of the accumulated strain is dictated by the intensity of the spectrum line. Thus, the mechanical spectrum of the polymeric material, from which the product is made, is the most important material function for predicting the durability of the polymeric product. In this paper we analyze the effect of the location of a single spectrum line on the critical operating conditions. We found that longer response times for a material mean lower critical operating angular velocities.   },
	issn = {0039-2480},	pages = {696-705},	doi = {},
	url = {https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/}
}
Zupančič, B.,Nikonov, A.,Florjančič, U.,Emri, I.
2007 August 53. Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 53:10
%A Zupančič, Barbara 
%A Nikonov, Anatolij 
%A Florjančič, Urška 
%A Emri, Igor 
%D 2007
%T Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum
%B 2007
%9 time-dependent constitutive modeling; transmission belts; viscoelastic analysis; mechanical spectrum; 
%! Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum
%K time-dependent constitutive modeling; transmission belts; viscoelastic analysis; mechanical spectrum; 
%X A drive belt's durability is a critical factor for the sustainable operation of engines. Thus, understanding the mechanisms that affect their durability is extremely important. In this paper we present the continuation of our research on the time-dependent behavior of dynamically loaded elastomeric products. For this purpose the constitutve model has been developed, which made possible the analyses of the stress-strain state [1]. The development of the costitutive model is based on the modelling of the transmission belts when exposed to tooth-like periodic mechanical loading during the operation of the engine. Within each loading cycle the elastomeric material undergoes a combination of creep and the retardation process. Under certain conditions, defined by the drive belt's geometry and the pulleys' angular velocity, the retardation process between two loadings cannot be fully completed to a strain-free state. Consequently, the strain state starts to accumulate, which leads to hardening of the material, crack formation, and ultimately to the failure of the belt. The results have shown that there exists some critical loading conditions for the strain-accumulation process to occur We can predict that the product will almost certainly fail if it operates under critical conditions, which depend on the retardation time (location of the spectrum). The magnitude of the accumulated strain is dictated by the intensity of the spectrum line. Thus, the mechanical spectrum of the polymeric material, from which the product is made, is the most important material function for predicting the durability of the polymeric product. In this paper we analyze the effect of the location of a single spectrum line on the critical operating conditions. We found that longer response times for a material mean lower critical operating angular velocities.   
%U https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/
%0 Journal Article
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%& 696
%P 10
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 53
%N 10
%@ 0039-2480
%8 2017-08-18
%7 2017-08-18
Zupančič, Barbara, Anatolij  Nikonov, Urška  Florjančič, & Igor  Emri.
"Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum." Strojniški vestnik - Journal of Mechanical Engineering [Online], 53.10 (2007): 696-705. Web.  29 Mar. 2024
TY  - JOUR
AU  - Zupančič, Barbara 
AU  - Nikonov, Anatolij 
AU  - Florjančič, Urška 
AU  - Emri, Igor 
PY  - 2007
TI  - Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - time-dependent constitutive modeling; transmission belts; viscoelastic analysis; mechanical spectrum; 
N2  - A drive belt's durability is a critical factor for the sustainable operation of engines. Thus, understanding the mechanisms that affect their durability is extremely important. In this paper we present the continuation of our research on the time-dependent behavior of dynamically loaded elastomeric products. For this purpose the constitutve model has been developed, which made possible the analyses of the stress-strain state [1]. The development of the costitutive model is based on the modelling of the transmission belts when exposed to tooth-like periodic mechanical loading during the operation of the engine. Within each loading cycle the elastomeric material undergoes a combination of creep and the retardation process. Under certain conditions, defined by the drive belt's geometry and the pulleys' angular velocity, the retardation process between two loadings cannot be fully completed to a strain-free state. Consequently, the strain state starts to accumulate, which leads to hardening of the material, crack formation, and ultimately to the failure of the belt. The results have shown that there exists some critical loading conditions for the strain-accumulation process to occur We can predict that the product will almost certainly fail if it operates under critical conditions, which depend on the retardation time (location of the spectrum). The magnitude of the accumulated strain is dictated by the intensity of the spectrum line. Thus, the mechanical spectrum of the polymeric material, from which the product is made, is the most important material function for predicting the durability of the polymeric product. In this paper we analyze the effect of the location of a single spectrum line on the critical operating conditions. We found that longer response times for a material mean lower critical operating angular velocities.   
UR  - https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/
@article{{}{.},
	author = {Zupančič, B., Nikonov, A., Florjančič, U., Emri, I.},
	title = {Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {53},
	number = {10},
	year = {2007},
	doi = {},
	url = {https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/}
}
TY  - JOUR
AU  - Zupančič, Barbara 
AU  - Nikonov, Anatolij 
AU  - Florjančič, Urška 
AU  - Emri, Igor 
PY  - 2017/08/18
TI  - Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 53, No 10 (2007): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - time-dependent constitutive modeling, transmission belts, viscoelastic analysis, mechanical spectrum, 
N2  - A drive belt's durability is a critical factor for the sustainable operation of engines. Thus, understanding the mechanisms that affect their durability is extremely important. In this paper we present the continuation of our research on the time-dependent behavior of dynamically loaded elastomeric products. For this purpose the constitutve model has been developed, which made possible the analyses of the stress-strain state [1]. The development of the costitutive model is based on the modelling of the transmission belts when exposed to tooth-like periodic mechanical loading during the operation of the engine. Within each loading cycle the elastomeric material undergoes a combination of creep and the retardation process. Under certain conditions, defined by the drive belt's geometry and the pulleys' angular velocity, the retardation process between two loadings cannot be fully completed to a strain-free state. Consequently, the strain state starts to accumulate, which leads to hardening of the material, crack formation, and ultimately to the failure of the belt. The results have shown that there exists some critical loading conditions for the strain-accumulation process to occur We can predict that the product will almost certainly fail if it operates under critical conditions, which depend on the retardation time (location of the spectrum). The magnitude of the accumulated strain is dictated by the intensity of the spectrum line. Thus, the mechanical spectrum of the polymeric material, from which the product is made, is the most important material function for predicting the durability of the polymeric product. In this paper we analyze the effect of the location of a single spectrum line on the critical operating conditions. We found that longer response times for a material mean lower critical operating angular velocities.   
UR  - https://www.sv-jme.eu/sl/article/time-dependent-behaviour-of-drive-belts-under-periodic-mechanical-loading-an-analysis-of-the-location-of-a-single-line-spectrum/
Zupančič, Barbara, Nikonov, Anatolij, Florjančič, Urška, AND Emri, Igor.
"Time-dependent behaviour of drive belts under periodic mechanical loading – An analysis of the location of a single line spectrum" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 53 Number 10 (18 August 2017)

Avtorji

Inštitucije

  • University of Ljubljana, Faculty of Mechanical Engineering, Slovenia
  • University of Ljubljana, Faculty of Mechanical Engineering, Slovenia
  • University of Ljubljana, Faculty of Mechanical Engineering, Slovenia
  • University of Ljubljana, Faculty of Mechanical Engineering, Slovenia

Informacije o papirju

Strojniški vestnik - Journal of Mechanical Engineering 53(2007)10, 696-705
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.

A drive belt's durability is a critical factor for the sustainable operation of engines. Thus, understanding the mechanisms that affect their durability is extremely important. In this paper we present the continuation of our research on the time-dependent behavior of dynamically loaded elastomeric products. For this purpose the constitutve model has been developed, which made possible the analyses of the stress-strain state [1]. The development of the costitutive model is based on the modelling of the transmission belts when exposed to tooth-like periodic mechanical loading during the operation of the engine. Within each loading cycle the elastomeric material undergoes a combination of creep and the retardation process. Under certain conditions, defined by the drive belt's geometry and the pulleys' angular velocity, the retardation process between two loadings cannot be fully completed to a strain-free state. Consequently, the strain state starts to accumulate, which leads to hardening of the material, crack formation, and ultimately to the failure of the belt. The results have shown that there exists some critical loading conditions for the strain-accumulation process to occur We can predict that the product will almost certainly fail if it operates under critical conditions, which depend on the retardation time (location of the spectrum). The magnitude of the accumulated strain is dictated by the intensity of the spectrum line. Thus, the mechanical spectrum of the polymeric material, from which the product is made, is the most important material function for predicting the durability of the polymeric product. In this paper we analyze the effect of the location of a single spectrum line on the critical operating conditions. We found that longer response times for a material mean lower critical operating angular velocities.   

time-dependent constitutive modeling; transmission belts; viscoelastic analysis; mechanical spectrum;