Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks
Pulling is one of the manual material handling activities that could lead to work-related musculoskeletal disorders. The objectives of this study were to explore the development of muscular fatigue when performing intermittent pulling tasks and to establish models to predict the pull strength decrea...
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MDPI AG
2021-12-01
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Series: | Applied Sciences |
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Online Access: | https://www.mdpi.com/2076-3417/11/24/12022 |
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author | Cannan Yi Fan Tang Kaiway Li Hong Hu Huali Zuo Caijun Zhao |
author_facet | Cannan Yi Fan Tang Kaiway Li Hong Hu Huali Zuo Caijun Zhao |
author_sort | Cannan Yi |
collection | DOAJ |
description | Pulling is one of the manual material handling activities that could lead to work-related musculoskeletal disorders. The objectives of this study were to explore the development of muscular fatigue when performing intermittent pulling tasks and to establish models to predict the pull strength decrease due to performing the tasks. A simulated truck pulling experiment was conducted. Eleven healthy male adults participated. The participants pulled a handle with a load of 40 kg, which resulted in a pulling force of approximately 123 N. The pulling tasks lasted for 9 or 12 min with one, two, or three pauses embedded. The total time period of the embedded pauses was 3 min. The pull strength after each pull and rest was measured. Ratings of the perceived exertion on body parts after each pull were also recorded. The results showed insignificant differences regarding the development of muscular fatigue related to rest frequency. We found that the development of muscular fatigue for pulling tasks with embedded pauses was significantly slower than that for continuous pulls. The forearm had a higher CR-10 score than the other body parts indicating that the forearm was the body part suffering early muscle fatigue. An exponential model was developed to predict the pull strength of the pulling tasks with embedded pauses. This model may be used to assess the developing of muscular fatigue for pulling tasks. |
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format | Article |
id | doaj.art-389de006c98340e7a1b929d5e14983b4 |
institution | Directory Open Access Journal |
issn | 2076-3417 |
language | English |
last_indexed | 2024-03-10T04:36:28Z |
publishDate | 2021-12-01 |
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spelling | doaj.art-389de006c98340e7a1b929d5e14983b42023-11-23T03:42:00ZengMDPI AGApplied Sciences2076-34172021-12-0111241202210.3390/app112412022Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling TasksCannan Yi0Fan Tang1Kaiway Li2Hong Hu3Huali Zuo4Caijun Zhao5Hunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaHunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaHunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaHunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaHunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaHunan Institute of Technology, School of Safety and Management Engineering, Hengyang 421102, ChinaPulling is one of the manual material handling activities that could lead to work-related musculoskeletal disorders. The objectives of this study were to explore the development of muscular fatigue when performing intermittent pulling tasks and to establish models to predict the pull strength decrease due to performing the tasks. A simulated truck pulling experiment was conducted. Eleven healthy male adults participated. The participants pulled a handle with a load of 40 kg, which resulted in a pulling force of approximately 123 N. The pulling tasks lasted for 9 or 12 min with one, two, or three pauses embedded. The total time period of the embedded pauses was 3 min. The pull strength after each pull and rest was measured. Ratings of the perceived exertion on body parts after each pull were also recorded. The results showed insignificant differences regarding the development of muscular fatigue related to rest frequency. We found that the development of muscular fatigue for pulling tasks with embedded pauses was significantly slower than that for continuous pulls. The forearm had a higher CR-10 score than the other body parts indicating that the forearm was the body part suffering early muscle fatigue. An exponential model was developed to predict the pull strength of the pulling tasks with embedded pauses. This model may be used to assess the developing of muscular fatigue for pulling tasks.https://www.mdpi.com/2076-3417/11/24/12022musculoskeletal disorderspulling tasksmuscular fatiguepull strength |
spellingShingle | Cannan Yi Fan Tang Kaiway Li Hong Hu Huali Zuo Caijun Zhao Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks Applied Sciences musculoskeletal disorders pulling tasks muscular fatigue pull strength |
title | Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks |
title_full | Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks |
title_fullStr | Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks |
title_full_unstemmed | Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks |
title_short | Effects of Pause Design on the Decline in Pulling Effort and the Evaluation of Perceived Effort in Pulling Tasks |
title_sort | effects of pause design on the decline in pulling effort and the evaluation of perceived effort in pulling tasks |
topic | musculoskeletal disorders pulling tasks muscular fatigue pull strength |
url | https://www.mdpi.com/2076-3417/11/24/12022 |
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