Relationship between fiber diameter and performance of yak wool

Baigalmaa Danzan, Sereeterdorj Dugerragchaa, Naransolongo Ukhnaa, Khishigjargal Tsedev
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Abstract

This article demonstrates the thermal sensitivity and conductivity as well as the water permeability and absorptivity of Mongolian yak wool surfaces according to the Kawabata evaluation method. According to the results of the study, the mean value of thermal sensitivity (Qmax) of yak wool surface is 0.051 w/cm2 for down and 0.061 w/cm2 for coarse hair while the mean value of thermal conductivity is 2.08x10-4 (cal/cm ·0C) for down and 2.63x10-4(cal/cm · 0C) for coarse hair. This study, with its high level of confidence (p = 0.05), proves the difference between down and coarse hair. Additionally, the study shows a strong correlation between the thermal conductivity and the fiber diameter of Mongolian yak wool, resulting in a correlation level of r = -0.80 for down and r = 0.86 for coarse hair.   When measuring the wettability of Mongolian yak wool, yak wool surface exhibited waterproof properties with a contact angle of 146.50 degrees for down hair and a contact angle of 147.10 degrees for coarse hair. The study also revealed a low correlation level of r = 0.39 for down and r = 0.40 for coarse hair when examining the relationship between the contact angle and the diameter of yak wool.
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牦牛羊毛纤维直径与性能的关系
本文采用川端评价法对牦牛羊毛表面的热敏性、导热性、透水性和吸水性进行了论证。研究结果表明,牦牛毛表面热敏度(Qmax)均值为羽绒0.051 w/cm2,粗毛0.061 w/cm2,导热系数均值为羽绒2.08 × 10-4(cal/cm·0C),粗毛2.63 × 10-4(cal/cm·0C)。本研究具有较高的置信度(p = 0.05),证明了羽绒和粗毛之间的差异。此外,研究表明,蒙古牦牛羊毛的导热系数与纤维直径有很强的相关性,羽绒的相关系数r = -0.80,粗毛的相关系数r = 0.86。测定牦牛羊毛的润湿性时,牦牛羊毛表面具有防水性能,羽绒的接触角为146.50度,粗毛的接触角为147.10度。在考察接触角与牦牛羊毛直径的关系时,羽绒和粗毛的相关性也很低,分别为r = 0.39和r = 0.40。
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