本研究以改變涼爽礦石粉末/奈米鋁化合物比例加入不同高分子聚合體(Nylon、PAN、PET)溶液中均勻分散,以靜電紡絲法製備奈米涼感纖維膜,觀察改變涼爽礦石粉末/奈米鋁化合物比例對涼感的影響,並經由電子顯微鏡觀察表面與纖維細度。由研究中觀察,改變涼爽礦石粉末/奈米鋁化合物比例會使黏度上升,纖維細度變大,細度範圍在0.18-0.68μm之間。當鋁化 合物佔添加的總比例越多瞬間涼感值越佳,Nylon的奈米涼爽纖維膜在涼爽礦石粉末/奈米鋁化合物添加比例0/3的情況下,瞬間涼感值可達0.164 W/cm^2,其瞬間涼感值較同比例下的PAN、PET效果優異。
In this study, various ratio of nano cooling powder/nano-aluminum compound were added into polymers (polyacrylonitrile(PAN), polyamide(Nylon) and Polyester(PET)) prepared cool nano-fiber membrane by electrospinning method, The viscosity of spinning solutions and cool feeling values(Q-max) of nano-fiber membrane were researched. From experimental results found the viscosity increased with the increase of ratio nano-aluminum compound. In addition, a scanning electron microscopy will be used to observed fineness in the fiber. This research discovers that increasing of the proportion of nano-aluminum compound will increase the fineness of fiber. Above all, the nano-aluminum compound shown significant effect on Q-max. The Q-max values of Nylon nano fiber membrane up to 0.164 W/cm^2, were better than PAN and PET at any ratio of cooling additives。
