A Study for Perception of Hair Damage Using Friction Coefficient of Human Hair |
Lim, Byung Tack
(E10 LG Science Park, LG Household & Health Care)
Seo, Hong An (E10 LG Science Park, LG Household & Health Care) Song, Sang-Hun (E10 LG Science Park, LG Household & Health Care) Son, Seong Kil (E10 LG Science Park, LG Household & Health Care) Kang, Nae-Gyu (E10 LG Science Park, LG Household & Health Care) |
1 | C. R. Robbins, Chemical and physical behavior of human hair, Ed C. R. Robbins, 94, Springer, Heidelberg (2012). |
2 | M. L. Tate, Y. K. Kamath, S. B. Ruetsch, and H. D. Weigmann, Quantification and prevention of hair damage, J. Soc. Cosmet. Chem., 44, 347, (1993). |
3 | E. Fernandez, C. Barba, C. Alonso, M. Marti, J. L. Parra, and L. Coderch. Photodamage determination of human hair, J. Photochem. Photobiol. B, Biol., 106, 101 (2012). DOI |
4 | I. P. Seshadri and B. Bhushan, In situ tensile deformation characterization of human hair with atomic force microscopy, Acta Mater., 56(4), 774, (2008). DOI |
5 | J. L. Bantignies, G. L. Carr, D. Lutz, S. Marull, G. P. Wiliams, G. Fuchs, Chemical imaging of hair by infrared microspectroscopy using synchroton radiation, J. Cosmet. Sci., 51, 73 (2000). |
6 | E. Fernandez, C. Barba, C. Alonso, M. Marti, J. L. Parra, L. Coderch, Photodamage determination of human hair, J. Photochem. Photobiol. B, Biol., 106, 101 (2012). DOI |
7 | W. Boucsein, F. Schaefer, M. Kefel, and P. Busch, W. Eisfeld. Objective emotional assessment of tactile hair properties and their modulation by different product worlds, Int J Cosmet Sci, 24(3), 135 (2002). DOI |
8 | C. Robbins, P. Mirmirani, A. G. Messenger, M. P. Birch, R. S. Youngquist, M. Tamura, T. Filloon, F. Luo. What women want - quantififying the perception of hair amount: an analysis of hair diameter and density changes with age in caucasian women, Br. J. Dermatol., 167(2), 324, (2012). DOI |
9 | A. Galliano, J. Y. Kempf, M. Fougere, M. Applebaum, L. J. Wolfram, and H. Maibach, Comparing touch senses of naive and expert panels through treated hair swatches: which associated wordings correlate with hair physical properties?, Int J Cosmet Sci, 39(6), 653, (2017). DOI |
10 | S. Bouabbache, A. Galliano, P. Littaye, M. Leportier, F. Pouradier, E. Gillot, S. Panhard, G. Loussouarn. What is a caucasian 'fine' hair? comparing instrumental measurements, self-perceptions and assessments from hair experts, Int. J. Cosmet. Sci., 38(6), 581, (2016). DOI |
11 | M. Ezure, N. Tanji, Y. Nishita, T. Mizooku, S. Nagase, T. Osumi, The secrets of beautiful hair: why is it flexible and elastic?, Cosmetics., 6(3), 40, (2019). DOI |
12 | S. Hilterhaus-bong, H. Zahn, Contributions to the chemistry of human hair: II. Lipid chemical aspects of permanently waved hair, Int. J. Cosmet. Sci., 11(4), 167, (1989). DOI |
13 | M. L. Tate, Y. K. Kamath, S. B. Ruetsch, H. -D. Weigmann. Quantification and prevention of hair damage, J. Soc. Cosmet. Chem., 44, 347, (1993). |
14 | H. Tanamachi, S. Tokunaga, N. Tanji, M. Oguri, and S. Inoue, 18-MEA and hair appearance, J. Cosmet. Sci., 61(2), 147 (2010). |
15 | Y. Masukawa, H. Tsujimura, H. Tanamachi, H. Narita, G. Imokaw, Damage to human hair caused by repeated bleaching combined with daily weathering during daily life activities. Exog Dermatol., 3, 273 (2004). DOI |
16 | S. H . Song, B. T . Li m, S . K. S on, a nd N . Kang, Prevention of protein loss using a shield coating according to moisture behavior in human hair, J. Soc. Cosmet. Sci. Korea, 46(1), 57, (2020). DOI |
17 | J. T. Guthrie, A. Kazlauciunas, L. Rongong, S. Rush, The characterisation of treated and dyed hair. Dyes Pigm., 29(1), 23 (1995). DOI |
18 | R. A. Lodge, B. Bhushan, Wetting properties of human hair by means of dynamic contact angle measurement, J. Appl. Polym. Sci., 102(6), 5255 (2006). DOI |
19 | F. M. Maddar, D. Perry, R. Brooks, A. Page, P. R. Unwin, Nanoscale surface charge visualization of human hair, Anal. Chem., 91(7), 4632, (2019). DOI |
20 | Y. Lee, Y. Kim, H. Hyun, L. Pi, X. Jin, and W. S. Lee, Hair shaft damage from heat and drying time of hair dryer, Ann Dermatol, 23(4), 455 (2011). DOI |
21 | R. Crawford, C. R. Robbins, J. Curran, and K. Chesney, A hysteresis in heat dried hair, J. Soc. Cosmet. Chem., 32(1), 27 (1981). |
22 | D. Gandyra, S. Walheim, S. Gorb, W. Barthlott, and T. Schimmel, The Capillary adhension technique : a versatile method for determining the liquid adhesion force and sample stifness, Beilstein J Nanotechnol, 6, 11 (2015). DOI |