Fine dust is naturally produced in the air as a mixture of solid and liquid particles in the air, and is naturally produced and divided into PM10 and PM2.5 according to the particle size. The fine dust is generated from sources such as fuel combustion and bio-combustion of automobiles. The compositi...
Fine dust is naturally produced in the air as a mixture of solid and liquid particles in the air, and is naturally produced and divided into PM10 and PM2.5 according to the particle size. The fine dust is generated from sources such as fuel combustion and bio-combustion of automobiles. The composition of fine dust is typically comprised from a carbon component, an ionic component, and a mineral component. Fine dust has become a big issue not only in Korea but also around the world. Fine dust exacerbates diseases of the respiratory system, and can even worsen symptoms in atopic patients. In addition, fine dust may cause skin pruritus, burning sensation, and even dermatitis. Fine dust may be observed to penetrate the hair follicle even in the normal skin barrier, and the harmful effects such as the formation of acne by mixing with sebum generated from the skin appear. Therefore, the method of removing fine dust from the skin became an important issue for atopic patients and the general public. Herein, we formulated cosmetic formula effective for removing fine dust. In this study, Dimethicone and Disiloxane, a silicone oil commonly used in cosmetic formulations, are used to make an effective formulation for removing fine dust. In stability evaluation, properties of both formula such as hardness, pH, specific gravity, and light stability remained almost unchanged until 28 days. Whereas change of formula’s weight was observed. Also, the higher the temperature, the greater the change in the weight of the formula. In order to improve the reduction of formula’s weight by temperature, the safety of the mold was verified by applying pouch that can minimize exposure to the air. A comparative experiment with a general cleansing foam to check the sebum removal effect showed that the washoff pack had excellent sebum removal effect. In addition, human application tests on the effects of fine dust emissaries showed that they help clean the fine dust particles. It suggested that the gas can overcome the limitations of application in cosmetics making and give consumers the effect of cleaning with products that are stable in light and temperature.
Fine dust is naturally produced in the air as a mixture of solid and liquid particles in the air, and is naturally produced and divided into PM10 and PM2.5 according to the particle size. The fine dust is generated from sources such as fuel combustion and bio-combustion of automobiles. The composition of fine dust is typically comprised from a carbon component, an ionic component, and a mineral component. Fine dust has become a big issue not only in Korea but also around the world. Fine dust exacerbates diseases of the respiratory system, and can even worsen symptoms in atopic patients. In addition, fine dust may cause skin pruritus, burning sensation, and even dermatitis. Fine dust may be observed to penetrate the hair follicle even in the normal skin barrier, and the harmful effects such as the formation of acne by mixing with sebum generated from the skin appear. Therefore, the method of removing fine dust from the skin became an important issue for atopic patients and the general public. Herein, we formulated cosmetic formula effective for removing fine dust. In this study, Dimethicone and Disiloxane, a silicone oil commonly used in cosmetic formulations, are used to make an effective formulation for removing fine dust. In stability evaluation, properties of both formula such as hardness, pH, specific gravity, and light stability remained almost unchanged until 28 days. Whereas change of formula’s weight was observed. Also, the higher the temperature, the greater the change in the weight of the formula. In order to improve the reduction of formula’s weight by temperature, the safety of the mold was verified by applying pouch that can minimize exposure to the air. A comparative experiment with a general cleansing foam to check the sebum removal effect showed that the washoff pack had excellent sebum removal effect. In addition, human application tests on the effects of fine dust emissaries showed that they help clean the fine dust particles. It suggested that the gas can overcome the limitations of application in cosmetics making and give consumers the effect of cleaning with products that are stable in light and temperature.
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