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Thermal and cardiovascular strain imposed by motorcycle protective clothing under Australian summer conditions

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posted on 2024-11-16, 07:34 authored by Liz de Rome, Elizabeth A Taylor, Rodney CroftRodney Croft, J Brown, Michael P Fitzharris, Nigel Taylor
Motorcycle protective clothing can be uncomfortably hot during summer, and this experiment was designed to evaluate the physiological significance of that burden. Twelve males participated in four, 90-min trials (cycling 30 W) across three environments (25, 30, 35 °C [all 40% relative humidity]). Clothing was modified between full and minimal injury protection. Both ensembles were tested at 25 °C, with only the more protective ensemble investigated at 30 and 35 °C. At 35 °C, auditory canal temperature rose at 0.02 °C min(-1) (SD 0.005), deviating from all other trials (p < 0.05). The thresholds for moderate (>38.5 °C) and profound hyperthermia (>40.0 °C) were predicted to occur within 105 min (SD 20.6) and 180 min (SD 33.0), respectively. Profound hyperthermia might eventuate in ~10 h at 30 °C, but should not occur at 25 °C. These outcomes demonstrate a need to enhance the heat dissipation capabilities of motorcycle clothing designed for summer use in hot climates, but without compromising impact protection. Practitioner's Summary: Motorcycle protective clothing can be uncomfortably hot during summer. This experiment was designed to evaluate the physiological significance of this burden across climatic states. In the heat, moderate (>38.5 °C) and profound hyperthermia (>40.0 °C) were predicted to occur within 105 and 180 min, respectively.

Funding

Motorcycle protective clothing, crash protection, thermal strain and rider performance

Australian Research Council

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History

Citation

de Rome, L., Taylor, E. A., Croft, R. J., Brown, J., Fitzharris, M. & Taylor, N. A.S.. (2016). Thermal and cardiovascular strain imposed by motorcycle protective clothing under Australian summer conditions. Ergonomics, 59 (4), 504-513.

Journal title

Ergonomics

Volume

59

Issue

4

Pagination

504-513

Language

English

RIS ID

107579

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