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Palupi, A. A. R., Rizky, Z. P., Puspita, N., Atmajaya, H., & Ramdhan, D. H. (2018). Physiological and Psychological Effects of Heat Stress on Automotive Manufacture Workers. KnE Life Sciences, 4(1), 148-155. https://doi.org/10.18502/kls.v4i1.1376

https://doi.org/10.18502/kls.v4i1.1376

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authors

  • Atiq Amanah Retna Palupi
    No author data available.
  • Zuly Prima Rizky
    No author data available.
  • Nurul Puspita
    No author data available.
  • Hardy Atmajaya
    No author data available.
  • Doni Hikmat Ramdhan

    Doni Hikmat Ramdhan

    Department of Occupational Health and Safety, Faculty of Public Health, Universitas Indonesia, Depok, Indonesia

Published Date

  • Jan 11, 2018

Physiological and Psychological Effects of Heat Stress on Automotive Manufacture Workers

KnE Life Sciences / The 1st International Conference on Global Health / Pages 148-155

Abstract

PT XYZ is an automotive parts manufacturer with a press and welding specialty in which workers are easily exposed to heat stress. This study aimed to analyze the effect of heat stress on workers’ physiology and psychology. Conducted in May–June 2016 using a cross-sectional approach, this study involved 70 workers. Workers’ physiological responses were assessed by measuring their body temperature,
heartbeat, and urine specific gravity. Their psychological responses were measured by asking them to complete a questionnaire regarding the heat stress they had experienced. Workers’ wet basal globe temperature (WBGT) and thermal work limit (TWL) were the indexes of heat stress used to perform a risk assessment in the work
place. Although the WGBT heat stress index exceeded the threshold value, the TWL resulted in an unrestricted area. Inner body temperature,heartbeat, and urine specific gravity values after shift work were increased, and a psychological response was shown by welding workers; the specific symptoms that emerged were excessive thirst and sweating, heat prickle, muscle cramps, and increased pulse rate, temperature, and urine specific gravity. In conclusion, heat stress exposure from press and welding activities affected workers’ physiology and psychology.

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