Σφακιανάκης Αλέξανδρος
ΩτοΡινοΛαρυγγολόγος
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Κρήτη 72100
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Πέμπτη 25 Ιανουαρίου 2018

Development of a Stiffness-Angle Law for Simplifying the Measurement of Human Hair Stiffness

Abstract

Objective

This research examines the benefits of caffeine absorption on hair stiffness. In order to test hair stiffness, we have developed an evaluation method that is not only accurate, but also inexpensive. Our evaluation method for measuring hair stiffness culminated in a model, called the Stiffness-Angle Law, which describes the elastic properties of hair and can be widely applied to the development of hair care products.

Methods

Small molecules (≤ 500 g/mol) such as caffeine can be absorbed into hair. A common shampoo containing 4% caffeine was formulated and applied to hair 10 times, after which the hair stiffness was measured. The caffeine absorption of the treated hair was observed using Fourier Transform Infrared Spectroscopy (FTIR) with a Focal Plane Array (FPA) detector. Our evaluation method for measuring hair stiffness consists of a regular camera and a support for single strands of hair. After attaching the hair to the support, the bending angle of the hair was observed with a camera and measured. Then the hair strand was weighed. The stiffness of the hair was calculated based on our proposed Stiffness-Angle law using three variables: angle, weight of hair, and the distance the hair was pulled across the support.

Results

The caffeine absorption was confirmed by FTIR analysis. The concentration of amide bond in the hair certainly increased due to caffeine absorption. After caffeine was absorbed into the hair, the bending angle and weight of the hair changed. Applying these measured changes to the Stiffness-Angle law, it was confirmed that the hair stiffness increased by 13.2% due to caffeine absorption.

Conclusion

The theoretical results using the Stiffness-Angle law agree with the visual examinations of hair exposed to caffeine, and also the known results of hair stiffness from a previous report. Our evaluation method combined with our proposed Stiffness-Angle Law effectively provides an accurate and inexpensive evaluation technique for measuring bending stiffness of human hair.

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