Experimental analysis of a sensitive plate for grain loss monitoring system

The ability to monitor grain loss from a combine harvester during harvest is an important element in rice production to minimize grain loss. In this study, an experimental modal analysis was performed to evaluate the effect of the dynamic behavior of a stainless-steel plate at four different thickne...

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Main Authors: Muhammad Isa, Bomoi, Mat Nawi, Nazmi, Abd Aziz, Samsuzana, Mohd Kassim, Muhamad Saufi, Al Riza, Dimas Firmanda
Format: Article
Published: Northeastern University 2023
Online Access:http://psasir.upm.edu.my/id/eprint/107825/
https://www.kzyjc.org/article/experimental-analysis-of-a-sensitive-plate-for-grain-loss-monitoring-system
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spelling my.upm.eprints.1078252024-11-05T02:40:39Z http://psasir.upm.edu.my/id/eprint/107825/ Experimental analysis of a sensitive plate for grain loss monitoring system Muhammad Isa, Bomoi Mat Nawi, Nazmi Abd Aziz, Samsuzana Mohd Kassim, Muhamad Saufi Al Riza, Dimas Firmanda The ability to monitor grain loss from a combine harvester during harvest is an important element in rice production to minimize grain loss. In this study, an experimental modal analysis was performed to evaluate the effect of the dynamic behavior of a stainless-steel plate at four different thicknesses to determine the desirable plate thickness for developing a sensitive plate for a grain-loss monitoring system. The plates were 250 mm long and 180 mm wide, and their respective thicknesses were 1, 1.5, 2, and 2.5 mm with each plate containing 78 measurement points. Modal analysis was performed using an impact hammer, piezoelectric accelerometer sensor, national instrument data acquisition device, and MEscope analysis software. For the experiment, the piezoelectric accelerometer sensor was fixed to the center of the plate as the output device, whereas the impact hammer was set to strike three impacts per measuring point on the plate as the input device. The recorded sensor signals were imported into modal analysis software for the extraction of modal parameters. The findings were further evaluated using a Bode plot to determine the frequency response performance of the plates, and polynomial model fitting analysis to compare the significance of the modal properties of the plates. According to the results of the analysis, a 1.5 mm plate thickness was chosen as the appropriate plate thickness for the grain loss monitoring system. Northeastern University 2023-10 Article PeerReviewed Muhammad Isa, Bomoi and Mat Nawi, Nazmi and Abd Aziz, Samsuzana and Mohd Kassim, Muhamad Saufi and Al Riza, Dimas Firmanda (2023) Experimental analysis of a sensitive plate for grain loss monitoring system. Kongzhi Yu Juece/control and Decision, 38 (6). pp. 1-9. ISSN 1001-0920 https://www.kzyjc.org/article/experimental-analysis-of-a-sensitive-plate-for-grain-loss-monitoring-system
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description The ability to monitor grain loss from a combine harvester during harvest is an important element in rice production to minimize grain loss. In this study, an experimental modal analysis was performed to evaluate the effect of the dynamic behavior of a stainless-steel plate at four different thicknesses to determine the desirable plate thickness for developing a sensitive plate for a grain-loss monitoring system. The plates were 250 mm long and 180 mm wide, and their respective thicknesses were 1, 1.5, 2, and 2.5 mm with each plate containing 78 measurement points. Modal analysis was performed using an impact hammer, piezoelectric accelerometer sensor, national instrument data acquisition device, and MEscope analysis software. For the experiment, the piezoelectric accelerometer sensor was fixed to the center of the plate as the output device, whereas the impact hammer was set to strike three impacts per measuring point on the plate as the input device. The recorded sensor signals were imported into modal analysis software for the extraction of modal parameters. The findings were further evaluated using a Bode plot to determine the frequency response performance of the plates, and polynomial model fitting analysis to compare the significance of the modal properties of the plates. According to the results of the analysis, a 1.5 mm plate thickness was chosen as the appropriate plate thickness for the grain loss monitoring system.
format Article
author Muhammad Isa, Bomoi
Mat Nawi, Nazmi
Abd Aziz, Samsuzana
Mohd Kassim, Muhamad Saufi
Al Riza, Dimas Firmanda
spellingShingle Muhammad Isa, Bomoi
Mat Nawi, Nazmi
Abd Aziz, Samsuzana
Mohd Kassim, Muhamad Saufi
Al Riza, Dimas Firmanda
Experimental analysis of a sensitive plate for grain loss monitoring system
author_facet Muhammad Isa, Bomoi
Mat Nawi, Nazmi
Abd Aziz, Samsuzana
Mohd Kassim, Muhamad Saufi
Al Riza, Dimas Firmanda
author_sort Muhammad Isa, Bomoi
title Experimental analysis of a sensitive plate for grain loss monitoring system
title_short Experimental analysis of a sensitive plate for grain loss monitoring system
title_full Experimental analysis of a sensitive plate for grain loss monitoring system
title_fullStr Experimental analysis of a sensitive plate for grain loss monitoring system
title_full_unstemmed Experimental analysis of a sensitive plate for grain loss monitoring system
title_sort experimental analysis of a sensitive plate for grain loss monitoring system
publisher Northeastern University
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/107825/
https://www.kzyjc.org/article/experimental-analysis-of-a-sensitive-plate-for-grain-loss-monitoring-system
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score 13.214268