表面技術
Online ISSN : 1884-3409
Print ISSN : 0915-1869
ISSN-L : 0915-1869
エポキシ樹脂被覆水晶振動子の湿度センサー特性と人体からの水分蒸発量測定
遠藤 浩二鈴木 昇星 正人塩屋 靖加藤 貞二藤倉 芳明
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ジャーナル フリー

2001 年 52 巻 10 号 p. 708-712

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A highly sensitive humidity sensor was prepared by the coating of epoxy resin on a quartz crystal sensor surface. The probe was adapted to a ventilated chamber-type apparatus for the measurement of water evaporation from human surfaces. In the range from 0 to 50% relative humidity (RH), the relationship between RH and resonant frequency showed good linearity with high resolution, ≤0.1% RH. By alternation between standard air (10% RH) and humidified air (12.5, 22.5, 32.5% RH), the time to reach steady state was determined to be less than 120 sec for both absorption and desorption processes. The frequency at the steady state was very stable.
This newly developed humidity sensor was used to measure water evaporation rates from human forearm, cheek, palm of hand and ocular surface. The observed rates were 10.7±0.5, 35.0±1.3, 40.2±1.6 and 298.9±4.0g/m2·hr (mean±standard deviation) respectively. These values and regional differences were consistent with those previously reported. The sensitivity and responsiveness of the new probe was best seen when measuring evaporation from the ocular surface. After achieving steady state, oscillations of the resonant frequency coincided with blinks of the eye at 5 sec intervals. Therefore, this new system that utilizes an epoxy-coated quartz crystal sensor will very useful to evaluate dynamic changes of water evaporation rate. It may have both clinical and industrial uses.

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