Yoshimasa Okamoto scite author profile

Yoshimasa Okamoto

3Publications

68Citation Statements Received

40Citation Statements Given

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Affiliations

Kao Corporation (Japan)

Publications

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Elucidation of Softening Mechanism in Rinse Cycle Fabric Softeners. Part 1: Effect of Hydrogen Bonding

Igarashi

Morita

Okamoto

et al. 2015

J Surfact & Detergents

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Most softening agents, such as rinse cycle fabric softeners, used by consumers at home contain cationic surfactants that have two long alkyl chains as their main component. The softening mechanism on fibers, especially cotton, has not yet been scientifically established, despite the market prevalence of fabric softeners for decades. One explanation for the softening effect is that the friction between fibers is reduced. According to this explanation, the fiber surfaces are coated by layers of alkyl chains. Because of the low coefficient of friction between alkyl chain layers of low surface energy, the fibers easily slide against one another yielding softer cotton clothing. However, no direct scientific evidence exists to prove the validity of this explanation. The softening mechanism of cotton yarn is discussed in this paper. Bending force values of cotton yarn treated with several concentrations of softener are measured by bend testing, and cotton and polyester yarns are compared. Results indicate that increases in cotton yarn hardness after natural drying are caused by cross-linking among inner fibers aided by bound water. This type of bound water has been known to exist even after 2 days of drying at 25 °C and 60 % relative humidity. Yarn dried in vacuo is soft, similar to that treated with softener. Thus, some of the softening effect caused by fabric softeners on cotton can be attributed to the prevention of cross-linking by bound water between cotton fibers.

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Elucidation of Softening Mechanism in Rinse‐Cycle Fabric Softeners. Part 2: Uneven Adsorption—The Key Phenomenon to the Effect of Fabric Softeners

Igarashi

Nakamura

Hoshi

et al. 2016

J Surfact & Detergents

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We investigated the actual factor determining the softening effect of a fabric softener. The adsorption area of the softener on model cotton cloths and yarns was identified using bromophenol blue. There was almost no softener at the cross-points of the yarns in the cloth samples or in the inner part of the yarns. The softening performance was better when there was less softener at the cross-points of the yarns than when the yarns were evenly covered by the softener. Thus we conclude that the presence of softener at the cross-points of yarns is not a vital factor in the softening effect. In addition, more softener was found on the outer part of the yarn than the inner part, indicating gradation in the adsorption pattern of the softener. Thus, we propose that more softener is adsorbed on the exposed part of the yarn in a cloth, and the formation of a hydrogen-bonding network containing bound water is inhibited, thus softening the outer part of the yarn. However, the presence of a small amount of softener in the inner part of the yarn preserves the hydrogen-bonding network. Favorable elasticity, or bounce, of the yarns and cloth is realized when an appropriate amount of softener is used. Excess softener would reach the inner part of the yarn, reducing the diameter of the core part of the yarn, making the cloth appear wilted.

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Development of the Fabric Softener with Scent Enhanced by Moisture

Shigehisa

Okamoto

2019

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The market of fabric softeners with long-lasting scents is expanding in recent years, and the softeners have driven the aroma booms of daily necessities. At present, the softeners are used not only to soften clothes but also to enjoy the scents, and "long-lasting favorite scent" is mainly required for young people. The preferred scent tones for softeners are fresh and flower y. The fragrance components that make up their scent tones are hydrophilic and volatile. Therefore, they were dif ficult to be adsorbed and to remain on the clothes even if they were blended in softeners. In order to solve such a problem, we focus on the fragrance-precursor which can improve adsorption and sustained release of the fragrance components. The fragrance-precursors also have the ability to create fresh and flower y scent responding to moisture, and they give to new values of aroma with the comfor table fluctuation scent.

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