Testing of the functional garments with microencapsulated phase-change material in simulated high temperature conditions

Jovanović, Balša; Stojisavljevic, N Predrag; Cvetanovic, G Sveta; Rajic, Slobodan; Karkalic, M Radovan; Ivankovic, D Negovan; Senic, B Zeljko

doi:10.2298/hemind150716064j

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…Compared with traditional PCMs, microencapsulated PCMs (MPCMs) have more stable properties, better heat transfer effect, and decrease the leakage of traditional PCMs in the process of phase change 4‐6 . Due to the excellent properties of MPCMs, they have been widely used in many fields, such as energy‐saving building materials, textiles, clothing, heat transfer fluid and for the military 7‐9 …”

Section: Introductionmentioning

confidence: 99%

Thermal protective performance of firefighting protective clothing incorporated with phase change material in fire environments

Wang

Ruoying

et al. 2020

Fire and Materials

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Summary Phase change materials (PCMs) can optimize the thermal properties of fabric. Twelve kinds of microencapsulated phase change materials were selected, including four different phase change temperatures and three different content gradients. Twelve kinds of PCM‐coated fabrics were prepared by dry coating, and their basic physical properties were tested. The PCM‐coated fabric was added to the thermal protective fabric system as a comfortable layer. The thermal protective performance of the fabric system under two conditions of low‐level thermal radiation and fire exposure was analyzed through second‐degree burn time. The results showed that the incorporation of PCMs greatly improved the thermal protective performance of the fabric system under the low‐level thermal radiation, which was affected by the content, phase change temperature, mass per unit area and thermophysical properties of the coated fabric. In addition, the coated fabric by the PCMs was proved to be suitable for the condition of fire exposure, and greatly increased the thermal protective performance of the fabric system. The coated fabric with phase change temperature of 35°C and content of 45% showed the best thermal protective performance under both low‐level thermal radiation and fire exposure conditions.

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Section: Introductionmentioning

confidence: 99%

Thermal protective performance of firefighting protective clothing incorporated with phase change material in fire environments

Wang

Ruoying

et al. 2020

Fire and Materials

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Smart textiles with PCMs for thermoregulation

Kızıldağ¹

2023

Multifunctional Phase Change Materials

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Chemical accident area reconnaissance by unmanned aircraft

Inđić¹,

Petrović²,

Ivanković³

et al. 2018

Vojno delo

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hemical accidents, as unexpected events, occur in contemporary society relatively often, and the resulting consequences can be different -from very small to catastrophic. Within the integrated response to chemical accidents, chemical reconnaissance of the accident area takes a significant place. This paper presents the possibility of prioritizing the criteria and attributes of the criterion for selecting unmanned aircraft for reconnaissance of the chemical accident area. By analyzing the content of the available literature, the criteria for evaluating the alternatives of the offered "miniunmanned aircraft" are set out.This paper deals with testing using the questionnaire, processing the obtained data and prioritization of the criteria and attributes using the fuzzy AHP method and examination of the results consistency by the consistency degree. Testing of the obtained results and selection of optimal unmanned aircraft using the TOPSIS method has been carried out, as well.Due to the extreme danger that personnel are exposed to during the chemical reconnaissance of the accident area (high concentrations of dangerous chemicals, long-term wearing of protectiveequipment, increased psychophysical stress, etc.), this paper considers the possibility of using unmanned aircraft. Furthermore, this paper suggests the way of selecting optimal UA as an element for reconnaissance in a particular chemical accident.

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Testing of the functional garments with microencapsulated phase-change material in simulated high temperature conditions

Cited by 3 publications

References 17 publications

Thermal protective performance of firefighting protective clothing incorporated with phase change material in fire environments

Thermal protective performance of firefighting protective clothing incorporated with phase change material in fire environments

Smart textiles with PCMs for thermoregulation

Chemical accident area reconnaissance by unmanned aircraft

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