Microclimate Change Under Body Armor Using Thermal Manikin and Wireless Sensors

Park Huiju; Peksoz Semra; Branson Donna; An Su Kyoung; Cao Huantian

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Microclimate Change Under Body Armor Using Thermal Manikin and Wireless Sensors

机译：使用人体模型和无线传感器的人体装甲下的小气候变化

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In hot environments, soldiers experience high levels of heat stress. This can cause dehydration and even death through thermal regulatory malfunction of the human body when its core temperature reaches 39 degrees C. This research explores the relationship between the core temperature and microclimate temperature/humidity to develop a core temperature prediction equation. A series of thermal manikin experiments were conducted in an environmental chamber (20 degrees C, 50% relative humidity) with microclimate temperature and humidity monitored at two locations (chest and back) and manikin's core temperature was varied systematically (36 degrees C similar to 39 degrees C). The manikin wore military clothing and armor. Results showed a linear relationship between core and skin temperature, sweat rate, and microclimate temperature. A core temperature prediction equation was suggested.

机译：在炎热的环境中，士兵承受高水平的热应激。当人体的核心温度达到39摄氏度时，这可能会因人体的热调节功能失常而导致脱水甚至死亡。这项研究探索了核心温度与微气候温度/湿度之间的关系，从而建立了核心温度预测方程。在环境舱（20摄氏度，相对湿度50％）中进行了一系列人体模型的热实验，在两个位置（胸部和背部）对微气候温度和湿度进行了监控，人体模型的核心温度得到系统地改变（36摄氏度，与39摄氏度相似）摄氏度）。人体模型穿着军用服装和盔甲。结果显示核心温度与皮肤温度，出汗率和小气候温度之间呈线性关系。建议了一个核心温度预测方程。

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来源
《AATCC Review》 |2012年第2期|69-72|共4页
作者
Park Huiju; Peksoz Semra; Branson Donna; An Su Kyoung; Cao Huantian;
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作者单位

Oklahoma State Univ, Stillwater, OK 74078 USA;

Oklahoma State Univ, Stillwater, OK 74078 USA;

Oklahoma State Univ, Stillwater, OK 74078 USA;

Cent Michigan Univ, Mt Pleasant, MI USA;

Univ Delaware, Newark, DE 19716 USA;

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原文格式 PDF
正文语种 eng
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关键词
Body Armor; Core Body Temperature; Heat Stress; Microclimate; Military; Protective Textiles; Sweat;

机译：防弹衣;核心体温;热应力;微气候;军事;防护纺织品;汗水;

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机译：微囊化十八烷处理的战斗服的热性能和通过人体暖体模型改变服装的微气候
2. Measuring the human body's microclimate using a thermal manikin [J] . C. Voelker, S. Maempel, O. Kornadt Indoor Air . 2014,第6期

机译：使用人体模型测量人体的微气候
3. TA-FSFT Thermal Aware Fail Safe Fault Tolerant algorithm for Wireless Body Sensor Network [J] . Kanagachidambaresan G. R., Chitra A. Wireless personal communications: An Internaional Journal . 2016,第4期

机译：无线人体传感器网络的TA-FSFT热感知故障安全容错算法
4. AN INVESTIGATION OF MICROCLIMATE CHANGE UNDER BODY ARMOR USING THERMAL MANIKIN AND WIRELESS SENSORS [C] . Huiju Park, Su Kyoung An, Semra Peksoz American Association of Textile Chemists and Colorists International Conference . 2010

机译：使用热人体模型和无线传感器对体护甲下微气密变化的调查
5. A Model for Field Deployment of Wireless Sensor Networks (WSNs) within the Domain of Microclimate Habitat Monitoring. [D] . Sanborn, Mark. 2011

机译：小气候栖息地监测领域内无线传感器网络（WSN）的现场部署模型。
6. On Designing Thermal-Aware Localized QoS Routing Protocol for in-vivo Sensor Nodes in Wireless Body Area Networks [O] . Muhammad Mostafa Monowar, Fuad Bajaber 2015

机译：无线人体局域网中体内传感器节点的热感知局部QoS路由协议设计
7. Measuring the human body's microclimate using a thermal manikin [O] . C. Voelker, S. Maempel, O. Kornadt 2014

机译：使用热人体模型测量人体的小气候
8. Thermal Manikin Evaluation of Passive and Active Cooling Garments to Improve Comfort of Military Body Armor [R] . Endrusick, T. , Gonzalez, J. , Berglund, L. 2007

机译：被动和主动冷却服装的热人体模型评估提高军用防弹衣的舒适度

Microclimate Change Under Body Armor Using Thermal Manikin and Wireless Sensors

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