New ways to measure curls and kinks could make it easier to care for
natural hair
Date:
March 27, 2023
Source:
American Chemical Society
Summary:
Black women and others with curly or kinky hair encounter a
confusing array of haircare options. Advice on the best products
to use for a certain type of hair is often contradictory, and the
results can be highly variable. Now, scientists are bringing order
to this chaos by identifying hair properties that could help users
pick the perfect product and achieve consistent results.
Facebook Twitter Pinterest LinkedIN Email
FULL STORY ========================================================================== Black women and others with curly or kinky hair encounter a vast and
confusing array of haircare options. Advice on the best products to use
for a certain type of hair is often contradictory, and the results can
be highly variable.
Now, scientists are bringing order to this chaos by identifying properties
such as the number of curls or coils in a given length of hair that could eventually help users pick the perfect product and achieve consistent
results.
==========================================================================
The researchers will present their findings today at the spring meeting
of the American Chemical Society (ACS).
"As an African American, I was born with very curly, seemingly
unmanageable hair, and other ethnicities can possess similar hair
properties," says Michelle Gaines, Ph.D., the project's principal
investigator. Gaines used to rely on chemical relaxers to straighten her tresses but stopped when she became pregnant. She was then confronted
with an overwhelming variety of products available to style and care for natural hair. Limited guidance about the best options for her particular
hair type, and conflicting advice from friends, YouTube videos and other resources, didn't help the situation.
Clearly, Gaines says, there is a major knowledge gap that needs to be
closed, so she has set out to fill it. "As a polymer chemist and materials scientist, I thought it would be great to start a project where I could
study the nuances of my hair, because I felt like it wasn't very well understood," she says.
Most prior research on properties was done on wavy or straight strands
from white or Asian people, according to Gaines, who is at Spelman
College, a historically Black college for women. Less is known about
what has traditionally been called "African" hair, she says, though
researchers at Groote Schuur Hospital and the University of Cape Town
in South Africa have published some findings.
L'Ore'al, as well as celebrity hair stylist Andre Walker and others,
have developed systems to classify different types of hair. Walker's
system ranges from straight to kinky, a category including tight coils
and zig-zag strands with angular bends. Although some people believe all
of these classification methods convey a preference for a smoother and straighter appearance -- a bias with historic links to the preferential treatment of enslaved people who had straighter hair and lighter skin
-- they're intended to help users choose the most suitable haircare
products. Gaines felt these systems worked well for straight and wavy
hair but lacked the nuance to distinguish the many varieties of curly
and kinky hair.
Gaines wanted to see if she could identify differences in properties other
than curl shape and tightness, and then use those differences to develop
a more precise and quantitative classification system. Undergraduates
at Spelman eagerly lined up to help. Gaines and her student, Imani Page,
are collaborating with Alfred Crosby, Ph.D., and Gregory Grason, Ph.D.,
at the University of Massachusetts Amherst; their expertise includes
material property characterization and modeling of complex materials
and soft matter.
The team measured the mechanical properties of wavy, curly and kinky
hairs with a texture analyzer and a dynamic mechanical analyzer. These instruments measure force, stress and other parameters as a strand is
first uncurled and then stretched until it breaks.
Among other findings, the team recently reported results for the "stretch ratio," a new parameter they developed to quantify and compare the force required to uncurl a strand until it's straight. That ratio was found
to be negligible for straight hair (since it can't be uncurled), about
0.8 for wavy, 1.1 for kinky and 1.4 for curly. This measurement could
therefore be used as an indicator of the initial curliness of a sample, providing a quantifiable way to distinguish between these types.
The team also measured geometric properties, such as the diameter, cross section and 3D shape of strands, using optical microscopy, scanning
electron microscopy (SEM) and a camera. In addition, the researchers
developed new parameters, including the number of complete waves, curls
or coils -- known as contours -- that they measured on 3-cm lengths of
hair. They found that wavy hair has less than one full contour in that
length, curly has about two, and kinky/coily has approximately three
or more. The results suggest that people will be able to classify their
own hair by counting contours, Gaines says.
In the latest work, Gaines has begun examining the layer that protects
the surface of each hair fiber. Known as the cuticle, it consists of
flat cells that overlap each other, like roof shingles. Cuticles have
a natural tendency to open and close reversibly when exposed to water,
shampoo and conditioner.
However, excessive acid and moisture retention can cause permanent damage
to the cuticles, causing them to remain irreversibly lifted, thus exposing
the inner cortex of the hair fiber. Irreversibly lifted cuticles, and
cuticles that easily open and close, make the strand more porous, which
causes more moisture absorption. Gaines' preliminary findings show the
cuticle layers are larger and spaced further apart in wavy hair than
in curly and coily hair. Also, the cuticle edges are smoother in wavy
hair. These findings could help the researchers explain why curly and
coily locks dry out faster than wavy and straight tresses. Ultimately,
Gaines hopes, the team's findings will identify the best parameters
for developers to design and for consumers to select the most suitable
products for each of the wondrously varied categories of hair.
The researchers acknowledge support from the University of Massachusetts Amherst.
* RELATED_TOPICS
o Matter_&_Energy
# Nanotechnology # Materials_Science
# Textiles_and_Clothing # Spintronics #
Engineering_and_Construction # Inorganic_Chemistry #
Chemistry # Thermodynamics
* RELATED_TERMS
o Carbon_nanotube o Mica o Scientific_method o Atom o
Polyethylene o Black_body o Trans_fat o Engineering
========================================================================== Story Source: Materials provided by American_Chemical_Society. Note:
Content may be edited for style and length.
==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2023/03/230327114914.htm
--- up 1 year, 4 weeks, 10 hours, 50 minutes
* Origin: -=> Castle Rock BBS <=- Now Husky HPT Powered! (1:317/3)