Journal of the Korean Society of Cosmetology 2014;20(5):791-796.
Published online October 31, 2014.
황백(Phelledendron amurense R.) 열수추출물을 이용한 모발염색 및 견뢰도 분석
김수영, 최희진, 나명석
Analysis of Human Hair Dyeing and Colorfastness Using Hot Water Extract from Phellodendron amurense R.
Su Young Kim, Hee Jin Choi, Myung Suk Na
Abstract
This study was to examine the effect of color and colorfastness depended on temperature and dyeing time by using hot water extract form Phellodendron amurense R. As the result, dyed hair color was yellow and dependant of dyeing time and temperature. The effect of dyed hair which appeared at 30oC for 10 minutes was higher than others. In particular, showed the best dyeing properties, processing time, showed similar results if the treatment temperature and the dyeing treatment for 10 minutes at 30oC hair dyeing properties are. Were the highest at 50oC dyeing volume shown similar trends both decreased and the more the processing temperature is increased with the treatment temperature, time, dyeing volume the dyed hair (K/S value). From these result, of the above is a basic dye, berberine a bright color, but also indicate the fluorescent dye to the hair rather than just pure anionic agent used as a hair dye to dye a problem with the sustainability according to the fastness of the dye When conducted various research, such as to minimize the loss of light-fastness and a greater dyeing affinity in the berberine treated cation is considered that a large effect can be expected. Also be referred to the development of an application to clear the color formation not visible dyes acid dyes effective in other parts of the definition of basic dyes.
Key Words: Acid dyes, Berberine, Colorfastness, Phellodendron amurense R.


ABOUT
BROWSE ARTICLES
EDITORIAL POLICY
FOR CONTRIBUTORS
Editorial Office
69 Gwangju Yeodae-gil, Gwangsan-gu, Gwangju, 62396, Korea
Tel: +82-10-2825-6735   Fex: +82-62-950-3797    E-mail: beauty2007@hanmail.net                

Copyright © 2024 by Korean Society of Cosmetology.

Developed in M2PI

Close layer
prev next