Effects of hair sprays on colour perception: a hyperspectral imaging approach to shine and chroma on heads

Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require...

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Published in	International journal of cosmetic science Vol. 39; no. 2; pp. 156 - 164
Main Authors	Puccetti, G., Thompson, W.
Format	Journal Article
Language	English
Published	England Wiley Subscription Services, Inc 01.04.2017
Subjects	color Color Perception Consumers hair Hair - chemistry Hair Color Hair Preparations Hairstyles human head Humans hyperspectral imaging Perceptions shine Spectrum Analysis - methods human head hair color hyperspectral imaging shine
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Abstract	Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres. Methods Hyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red‐coloured mannequins by consumer questionnaire. Results Hair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays. Conclusions Hair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray‐deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Résumé Objectif Les produits aérosols utilisés par les consommateurs procurent aux coiffures généralement des propriétés de tenue, résistance a l'humidité et optiques tel que lustre. Ces produits appliquent de fines particules sur les fibres de cheveux afin de former un film fin en leur surface. Différents types de cheveux nécessitent différent types d'aérosols possédant différents degrés de tenue. Cette étude montre que des aérosols peuvent également affecter la perception de couleur du cheveu en modifiant la topologie de surface des fibres. Méthodes L'imagerie hyperspectrale a servie pour mesurer les différentes composantes de lumière émises par des têtes de mannequins ainsi que des sujets sous lumière parallèle. Les caractéristiques spectrales et spatiales ont été mesurées avant et après applications de produits et comparées avec la perception visuelle de brillance et de couleur par un groupe de consommatrices. Finalement, la qualité du film formé en surface des fibres capillaires est caractérisée par imagerie électronique. Résultats Les aérosols testés ont tous montré un nivellement partiel de l'angle cuticulaire en surface du cheveu qui est responsable pour la séparation angulaire des émissions de brillance et de chroma. La déposition de polymère par les aérosols en surface des cuticules a pour effet de résulter en une migration de la réflection spéculaire de lumière vers les angles de réflection interne de lumière, c'est‐a‐dire la bande de chroma responsable dans la perception de couleur interne du cheveu. Au cours d'applications successives, un produit sur quatre montre un dépôt plus progressif et cette différence entre produits s'est avérée perceptible visuellement par le groupe de consommatrices. Conclusions Notre approche montre que des aérosols peuvent affecter la perception de couleur d'une coiffure en modifiant la microstructure de surface des fibres du cheveu. Le film déposé par les aérosols peut partiellement combler les espaces intercuticulaires de surface et effaçer l'angle des cuticules. Cela a pour effet de déplacer la position angulaire de la réflection spéculaire vers l'angle de la réflection interne de lumière et, donc, réduire la région de perception du chroma. L'imagerie hyperspectrale s'est montrée très utile pour séparer différentes composantes optiques dans une coiffure. Cette méthode a de grands potentiels, notamment pour évaluer l'impacte de produits sur les différentes composantes optiques du cheveu, comme dans ce cas, les dépôts polymériques et la dispersion de particules appliquées. Effect of hair spray deposits on the optical properties of the human hair microstructure: changes in the perceived hair color.
AbstractList	Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres. Hyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red-coloured mannequins by consumer questionnaire. Hair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays. Hair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray-deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres. Methods Hyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red‐coloured mannequins by consumer questionnaire. Results Hair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays. Conclusions Hair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray‐deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Résumé Objectif Les produits aérosols utilisés par les consommateurs procurent aux coiffures généralement des propriétés de tenue, résistance a l'humidité et optiques tel que lustre. Ces produits appliquent de fines particules sur les fibres de cheveux afin de former un film fin en leur surface. Différents types de cheveux nécessitent différent types d'aérosols possédant différents degrés de tenue. Cette étude montre que des aérosols peuvent également affecter la perception de couleur du cheveu en modifiant la topologie de surface des fibres. Méthodes L'imagerie hyperspectrale a servie pour mesurer les différentes composantes de lumière émises par des têtes de mannequins ainsi que des sujets sous lumière parallèle. Les caractéristiques spectrales et spatiales ont été mesurées avant et après applications de produits et comparées avec la perception visuelle de brillance et de couleur par un groupe de consommatrices. Finalement, la qualité du film formé en surface des fibres capillaires est caractérisée par imagerie électronique. Résultats Les aérosols testés ont tous montré un nivellement partiel de l'angle cuticulaire en surface du cheveu qui est responsable pour la séparation angulaire des émissions de brillance et de chroma. La déposition de polymère par les aérosols en surface des cuticules a pour effet de résulter en une migration de la réflection spéculaire de lumière vers les angles de réflection interne de lumière, c'est‐a‐dire la bande de chroma responsable dans la perception de couleur interne du cheveu. Au cours d'applications successives, un produit sur quatre montre un dépôt plus progressif et cette différence entre produits s'est avérée perceptible visuellement par le groupe de consommatrices. Conclusions Notre approche montre que des aérosols peuvent affecter la perception de couleur d'une coiffure en modifiant la microstructure de surface des fibres du cheveu. Le film déposé par les aérosols peut partiellement combler les espaces intercuticulaires de surface et effaçer l'angle des cuticules. Cela a pour effet de déplacer la position angulaire de la réflection spéculaire vers l'angle de la réflection interne de lumière et, donc, réduire la région de perception du chroma. L'imagerie hyperspectrale s'est montrée très utile pour séparer différentes composantes optiques dans une coiffure. Cette méthode a de grands potentiels, notamment pour évaluer l'impacte de produits sur les différentes composantes optiques du cheveu, comme dans ce cas, les dépôts polymériques et la dispersion de particules appliquées. Effect of hair spray deposits on the optical properties of the human hair microstructure: changes in the perceived hair color. OBJECTIVESHair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres.METHODSHyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red-coloured mannequins by consumer questionnaire.RESULTSHair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays.CONCLUSIONSHair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray-deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Abstract Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres. Methods Hyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red‐coloured mannequins by consumer questionnaire. Results Hair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays. Conclusions Hair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray‐deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Résumé Objectif Les produits aérosols utilisés par les consommateurs procurent aux coiffures généralement des propriétés de tenue, résistance a l'humidité et optiques tel que lustre. Ces produits appliquent de fines particules sur les fibres de cheveux afin de former un film fin en leur surface. Différents types de cheveux nécessitent différent types d'aérosols possédant différents degrés de tenue. Cette étude montre que des aérosols peuvent également affecter la perception de couleur du cheveu en modifiant la topologie de surface des fibres. Méthodes L'imagerie hyperspectrale a servie pour mesurer les différentes composantes de lumière émises par des têtes de mannequins ainsi que des sujets sous lumière parallèle. Les caractéristiques spectrales et spatiales ont été mesurées avant et après applications de produits et comparées avec la perception visuelle de brillance et de couleur par un groupe de consommatrices. Finalement, la qualité du film formé en surface des fibres capillaires est caractérisée par imagerie électronique. Résultats Les aérosols testés ont tous montré un nivellement partiel de l'angle cuticulaire en surface du cheveu qui est responsable pour la séparation angulaire des émissions de brillance et de chroma. La déposition de polymère par les aérosols en surface des cuticules a pour effet de résulter en une migration de la réflection spéculaire de lumière vers les angles de réflection interne de lumière, c'est‐a‐dire la bande de chroma responsable dans la perception de couleur interne du cheveu. Au cours d'applications successives, un produit sur quatre montre un dépôt plus progressif et cette différence entre produits s'est avérée perceptible visuellement par le groupe de consommatrices. Conclusions Notre approche montre que des aérosols peuvent affecter la perception de couleur d'une coiffure en modifiant la microstructure de surface des fibres du cheveu. Le film déposé par les aérosols peut partiellement combler les espaces intercuticulaires de surface et effaçer l'angle des cuticules. Cela a pour effet de déplacer la position angulaire de la réflection spéculaire vers l'angle de la réflection interne de lumière et, donc, réduire la région de perception du chroma. L'imagerie hyperspectrale s'est montrée très utile pour séparer différentes composantes optiques dans une coiffure. Cette méthode a de grands potentiels, notamment pour évaluer l'impacte de produits sur les différentes composantes optiques du cheveu, comme dans ce cas, les dépôts polymériques et la dispersion de particules appliquées. Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays distribute fine particles containing polymeric ingredients to form a thin film on the surface of hair. Different hair types require different strengths of the formed deposit on the hair surface. The present study shows how sprays also alter the visibility of the hair colour by altering the surface topology of the hair fibres. Methods Hyperspectral imaging is used to map spectral characteristics of hair on mannequins and panelists over the curvature of heads. Spectral and spatial characteristics are measured before and after hair spray applications. The hair surface is imaged by SEM to visualize the degree of cuticle coverage. Finally, the perception of hair colour was evaluated on red-coloured mannequins by consumer questionnaire. Results Hair sprays deposit different degrees of fixatives, which lead to a progressive leveling of the cuticle natural tilt angle with respect to the fibre axis. As a result, shine is progressively shifting towards the region of hair colour visibility and decreases the perceived colour of hair seen by consumers. Lighter sprays show thinner film formation on the hair surface and less of a shine shift than strong hold hair sprays. Conclusions Hair sprays are generally employed for hair style hold and weather resistance and considered without effect on hair colour. Our approach shows that spray-deposited films can affect colour perception by altering the microstructure of the hair surface. Thin films deposited on the hair fibre surface can partially fill gaps between cuticles, which reduces the cuticle natural angle. This partial erasure results in a angle shift of the shine regions towards the angle of internal reflection, thus decreasing the perceived hair colour regions as experienced by a group of consumers. Résumé Objectif Les produits aérosols utilisés par les consommateurs procurent aux coiffures généralement des propriétés de tenue, résistance a l'humidité et optiques tel que lustre. Ces produits appliquent de fines particules sur les fibres de cheveux afin de former un film fin en leur surface. Différents types de cheveux nécessitent différent types d'aérosols possédant différents degrés de tenue. Cette étude montre que des aérosols peuvent également affecter la perception de couleur du cheveu en modifiant la topologie de surface des fibres. Méthodes L'imagerie hyperspectrale a servie pour mesurer les différentes composantes de lumière émises par des têtes de mannequins ainsi que des sujets sous lumière parallèle. Les caractéristiques spectrales et spatiales ont été mesurées avant et après applications de produits et comparées avec la perception visuelle de brillance et de couleur par un groupe de consommatrices. Finalement, la qualité du film formé en surface des fibres capillaires est caractérisée par imagerie électronique. Résultats Les aérosols testés ont tous montré un nivellement partiel de l'angle cuticulaire en surface du cheveu qui est responsable pour la séparation angulaire des émissions de brillance et de chroma. La déposition de polymère par les aérosols en surface des cuticules a pour effet de résulter en une migration de la réflection spéculaire de lumière vers les angles de réflection interne de lumière, c'est-a-dire la bande de chroma responsable dans la perception de couleur interne du cheveu. Au cours d'applications successives, un produit sur quatre montre un dépôt plus progressif et cette différence entre produits s'est avérée perceptible visuellement par le groupe de consommatrices. Conclusions Notre approche montre que des aérosols peuvent affecter la perception de couleur d'une coiffure en modifiant la microstructure de surface des fibres du cheveu. Le film déposé par les aérosols peut partiellement combler les espaces intercuticulaires de surface et effaçer l'angle des cuticules. Cela a pour effet de déplacer la position angulaire de la réflection spéculaire vers l'angle de la réflection interne de lumière et, donc, réduire la région de perception du chroma. L'imagerie hyperspectrale s'est montrée très utile pour séparer différentes composantes optiques dans une coiffure. Cette méthode a de grands potentiels, notamment pour évaluer l'impacte de produits sur les différentes composantes optiques du cheveu, comme dans ce cas, les dépôts polymériques et la dispersion de particules appliquées.
Author	Thompson, W. Puccetti, G.
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Chem. contributor: fullname: Stamm R.F.
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Snippet	Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine.... Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally, sprays... Abstract Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine.... Objectives Hair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine.... OBJECTIVESHair sprays apply fixative ingredients to provide hold to a hair style as well as weather resistance and optical properties such as shine. Generally,...
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SubjectTerms	color Color Perception Consumers hair Hair - chemistry Hair Color Hair Preparations Hairstyles human head Humans hyperspectral imaging Perceptions shine Spectrum Analysis - methods
Title	Effects of hair sprays on colour perception: a hyperspectral imaging approach to shine and chroma on heads
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