Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part

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Zeitschriftentitel:	Open Agriculture
Personen und Körperschaften:	Prakash, Anand, Kumar, Shiv Ranjan, Verma, Rahul
In:	Open Agriculture, 4, 2019, 1, S. 258-266
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Walter de Gruyter GmbH
Schlagwörter:	General Agricultural and Biological Sciences

author_facet	Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul
author	Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul
spellingShingle	Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul Open Agriculture Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part General Agricultural and Biological Sciences
author_sort	prakash, anand
spelling	Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul 2391-9531 Walter de Gruyter GmbH General Agricultural and Biological Sciences http://dx.doi.org/10.1515/opag-2019-0024 <jats:title>Abstract</jats:title><jats:p>The engine part is one of the major sources of vibration of agricultural machinery such as a tractor. Therefore, vibration analysis of agricultural engine part will improve the engine efficiency and agricultural performance. The main objective of present work was to study the dynamic behavior of functionally graded (FG) structural material for the application as cylinder liner as agricultural engine part. The vibration analysis of functionally graded (FG) beam was performed using Finite Element Method (FEM). A typical simply-supported FG beam was modeled in COMSOL Software, where the upper portion of the beam was alumina and the lower portion was steel. The basic properties of material such as Young’s Modulus and mass density were varied along the thickness according to the power law. The boundary conditions were also modeled, and parametric study was carried out with mass density and young’s modulus. Eigen value problem was solved and in turn natural frequency and mode shapes were obtained. The frequency ratio was calculated and compared for various boundary conditions. The finding of the results indicated that when power exponent was increased from 0 to 5, the nonlinear reduction in frequency was occurred but when power exponent was increased from 5 to 10, linear reduction in frequency was occurred. Also, the increase in power exponent caused the increase in frequency for Young’s Modulus ratio of 0.25 and 0.5, decrease in frequency for Young’s Modulus ratio of 2 and 4 and no change occurred for Young’s Modulus ratio of 1. The first non-dimensional frequency for Clamped-Clamped boundary condition was comparatively more than other boundary conditions and lowest frequency is obtained for Clamped –Free boundary conditions.</jats:p> Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part Open Agriculture
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source_id	49
title	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_unstemmed	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_full	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_fullStr	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_full_unstemmed	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_short	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_sort	vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
topic	General Agricultural and Biological Sciences
url	http://dx.doi.org/10.1515/opag-2019-0024
publishDate	2019
physical	258-266
description	<jats:title>Abstract</jats:title><jats:p>The engine part is one of the major sources of vibration of agricultural machinery such as a tractor. Therefore, vibration analysis of agricultural engine part will improve the engine efficiency and agricultural performance. The main objective of present work was to study the dynamic behavior of functionally graded (FG) structural material for the application as cylinder liner as agricultural engine part. The vibration analysis of functionally graded (FG) beam was performed using Finite Element Method (FEM). A typical simply-supported FG beam was modeled in COMSOL Software, where the upper portion of the beam was alumina and the lower portion was steel. The basic properties of material such as Young’s Modulus and mass density were varied along the thickness according to the power law. The boundary conditions were also modeled, and parametric study was carried out with mass density and young’s modulus. Eigen value problem was solved and in turn natural frequency and mode shapes were obtained. The frequency ratio was calculated and compared for various boundary conditions. The finding of the results indicated that when power exponent was increased from 0 to 5, the nonlinear reduction in frequency was occurred but when power exponent was increased from 5 to 10, linear reduction in frequency was occurred. Also, the increase in power exponent caused the increase in frequency for Young’s Modulus ratio of 0.25 and 0.5, decrease in frequency for Young’s Modulus ratio of 2 and 4 and no change occurred for Young’s Modulus ratio of 1. The first non-dimensional frequency for Clamped-Clamped boundary condition was comparatively more than other boundary conditions and lowest frequency is obtained for Clamped –Free boundary conditions.</jats:p>
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author	Prakash, Anand, Kumar, Shiv Ranjan, Verma, Rahul
author_facet	Prakash, Anand, Kumar, Shiv Ranjan, Verma, Rahul, Prakash, Anand, Kumar, Shiv Ranjan, Verma, Rahul
author_sort	prakash, anand
container_issue	1
container_start_page	258
container_title	Open Agriculture
container_volume	4
description	<jats:title>Abstract</jats:title><jats:p>The engine part is one of the major sources of vibration of agricultural machinery such as a tractor. Therefore, vibration analysis of agricultural engine part will improve the engine efficiency and agricultural performance. The main objective of present work was to study the dynamic behavior of functionally graded (FG) structural material for the application as cylinder liner as agricultural engine part. The vibration analysis of functionally graded (FG) beam was performed using Finite Element Method (FEM). A typical simply-supported FG beam was modeled in COMSOL Software, where the upper portion of the beam was alumina and the lower portion was steel. The basic properties of material such as Young’s Modulus and mass density were varied along the thickness according to the power law. The boundary conditions were also modeled, and parametric study was carried out with mass density and young’s modulus. Eigen value problem was solved and in turn natural frequency and mode shapes were obtained. The frequency ratio was calculated and compared for various boundary conditions. The finding of the results indicated that when power exponent was increased from 0 to 5, the nonlinear reduction in frequency was occurred but when power exponent was increased from 5 to 10, linear reduction in frequency was occurred. Also, the increase in power exponent caused the increase in frequency for Young’s Modulus ratio of 0.25 and 0.5, decrease in frequency for Young’s Modulus ratio of 2 and 4 and no change occurred for Young’s Modulus ratio of 1. The first non-dimensional frequency for Clamped-Clamped boundary condition was comparatively more than other boundary conditions and lowest frequency is obtained for Clamped –Free boundary conditions.</jats:p>
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spelling	Prakash, Anand Kumar, Shiv Ranjan Verma, Rahul 2391-9531 Walter de Gruyter GmbH General Agricultural and Biological Sciences http://dx.doi.org/10.1515/opag-2019-0024 <jats:title>Abstract</jats:title><jats:p>The engine part is one of the major sources of vibration of agricultural machinery such as a tractor. Therefore, vibration analysis of agricultural engine part will improve the engine efficiency and agricultural performance. The main objective of present work was to study the dynamic behavior of functionally graded (FG) structural material for the application as cylinder liner as agricultural engine part. The vibration analysis of functionally graded (FG) beam was performed using Finite Element Method (FEM). A typical simply-supported FG beam was modeled in COMSOL Software, where the upper portion of the beam was alumina and the lower portion was steel. The basic properties of material such as Young’s Modulus and mass density were varied along the thickness according to the power law. The boundary conditions were also modeled, and parametric study was carried out with mass density and young’s modulus. Eigen value problem was solved and in turn natural frequency and mode shapes were obtained. The frequency ratio was calculated and compared for various boundary conditions. The finding of the results indicated that when power exponent was increased from 0 to 5, the nonlinear reduction in frequency was occurred but when power exponent was increased from 5 to 10, linear reduction in frequency was occurred. Also, the increase in power exponent caused the increase in frequency for Young’s Modulus ratio of 0.25 and 0.5, decrease in frequency for Young’s Modulus ratio of 2 and 4 and no change occurred for Young’s Modulus ratio of 1. The first non-dimensional frequency for Clamped-Clamped boundary condition was comparatively more than other boundary conditions and lowest frequency is obtained for Clamped –Free boundary conditions.</jats:p> Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part Open Agriculture
spellingShingle	Prakash, Anand, Kumar, Shiv Ranjan, Verma, Rahul, Open Agriculture, Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part, General Agricultural and Biological Sciences
title	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_full	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_fullStr	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_full_unstemmed	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_short	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_sort	vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
title_unstemmed	Vibration analysis of functionally graded materials for cylinder liner used in agricultural engine part
topic	General Agricultural and Biological Sciences
url	http://dx.doi.org/10.1515/opag-2019-0024