Numerical study to optimize exhaust hanger location based on finite element modelling and model updating

This article provides numerically study of optimizing exhaust hanger location through reliable finite element (FE) model treated with finite element modelling and model updating. The goal of this study to improve the dynamic characteristic of the test structure by optimizes its hanger locations. Pre...

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Main Authors: M. S. M., Fouzi, M. S. M., Sani
Format: Conference or Workshop Item
Language:English
English
Published: 2019
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/25471/1/60.%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf
http://umpir.ump.edu.my/id/eprint/25471/2/60.1%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf
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author M. S. M., Fouzi
M. S. M., Sani
author_facet M. S. M., Fouzi
M. S. M., Sani
author_sort M. S. M., Fouzi
collection UMP
description This article provides numerically study of optimizing exhaust hanger location through reliable finite element (FE) model treated with finite element modelling and model updating. The goal of this study to improve the dynamic characteristic of the test structure by optimizes its hanger locations. Preliminarily, the reliable FE model prepared via FE modelling and model updating approach with joint strategy (existed element connector model; RBE2, CBAR, CBEAM and CBUSH in FEA package) verified by measured counterpart. Modal analysis of the FE model executed using CAD software, SolidWork and FEA package, MSC. Nastran/Patran. Hence, the reliable FE model of exhaust is undergo with a method called average driving degree of freedom displacement (ADDOFD) to determine and optimize the exhaust hanger locations. Once relevant locations of the hangers identified, the vibration level experienced by the structure would reduced. The proposed approach is feasible to identify the optimum position of exhaust’s hanger to provide healthier NVH performance in advance before manufacturing process. This method is reasonable to be extent to the other types of structure instead of field-testing which consumed extra time and expenditure.
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spelling UMPir254712019-11-19T07:56:00Z http://umpir.ump.edu.my/id/eprint/25471/ Numerical study to optimize exhaust hanger location based on finite element modelling and model updating M. S. M., Fouzi M. S. M., Sani TJ Mechanical engineering and machinery This article provides numerically study of optimizing exhaust hanger location through reliable finite element (FE) model treated with finite element modelling and model updating. The goal of this study to improve the dynamic characteristic of the test structure by optimizes its hanger locations. Preliminarily, the reliable FE model prepared via FE modelling and model updating approach with joint strategy (existed element connector model; RBE2, CBAR, CBEAM and CBUSH in FEA package) verified by measured counterpart. Modal analysis of the FE model executed using CAD software, SolidWork and FEA package, MSC. Nastran/Patran. Hence, the reliable FE model of exhaust is undergo with a method called average driving degree of freedom displacement (ADDOFD) to determine and optimize the exhaust hanger locations. Once relevant locations of the hangers identified, the vibration level experienced by the structure would reduced. The proposed approach is feasible to identify the optimum position of exhaust’s hanger to provide healthier NVH performance in advance before manufacturing process. This method is reasonable to be extent to the other types of structure instead of field-testing which consumed extra time and expenditure. 2019 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/25471/1/60.%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf pdf en http://umpir.ump.edu.my/id/eprint/25471/2/60.1%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf M. S. M., Fouzi and M. S. M., Sani (2019) Numerical study to optimize exhaust hanger location based on finite element modelling and model updating. In: International Conference On Computational Science And Information Management , 21 - 23 March 2019 , Lombok Indonesia. pp. 1-13.. (Unpublished)
spellingShingle TJ Mechanical engineering and machinery
M. S. M., Fouzi
M. S. M., Sani
Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title_full Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title_fullStr Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title_full_unstemmed Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title_short Numerical study to optimize exhaust hanger location based on finite element modelling and model updating
title_sort numerical study to optimize exhaust hanger location based on finite element modelling and model updating
topic TJ Mechanical engineering and machinery
url http://umpir.ump.edu.my/id/eprint/25471/1/60.%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf
http://umpir.ump.edu.my/id/eprint/25471/2/60.1%20Numerical%20study%20to%20optimize%20exhaust%20hanger%20location.pdf
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