Large Fine Fiber Sheets Integrated with Non-woven Fabric Developed

In 2018, Kao announced the development of Fine Fiber Technology^*1 to create an ultra-thin membrane made from interfolded fine fibers on the surface of the skin by directly spinning super-fine fibers under one micron in diameter. This flexible, ultra-thin film maintains adequate moisture permeability without completely blocking the skin, and thanks to capillary action, can evenly distribute a formula throughout the entire membrane. Kao has reported that combining the fine fiber membrane with a moisturizer formula on the skin can help control moisture evaporation and protect against friction and other physical irritants^*2 .

However, spinning the membrane directly onto the skin is unsuitable for areas with uneven surfaces, areas that move frequently, or large surfaces. Kao began developing technology for an industrial process to produce large fine fiber sheets, in order to broaden applications and scope of use.

Fine fiber technology employs a fiber-spinning method called electrospinning, which utilizes the attraction between positively and negatively charged objects. Initially, Kao dissolved polymer in a solvent to give it a positive charge and spun this solution onto a negatively charged target surface. However, the solvent diluted the polymer, restricting the amount that could be spun at one time and required evaporation, slowing the spinning process.

To spin a large amount of fine fiber, Kao explored methods to avoid using polymers that dissolve in solvents. By selecting polypropylene, a polymer that melts upon heating and solidifies when cooled, and then adding the appropriate charge-regulation agent, along with utilizing the drawing force of airflow, Kao developed a technology for spinning superfine fibers. This technology enabled the production of over 100 times more fine fiber than the previous method. In addition, setting up equipment with multiple fiber outlets made it possible to produce large sheets of fine fiber membrane.

Due to the fine fiber membrane’s thinness, it lacks sufficient strength and other attributes when produced in large sheets. Therefore, Kao considered spinning it onto a non-woven fabric surface to create a layered sheet. To enhance flexibility and stretch, Kao used polypropylene resin with low crystallinity as the fine fiber material and non-woven fabric with good stretching properties. This resulted in fine fiber layered sheets that do not rip easily and that conform closely to the skin. (Figure 1)

Similar to cutting a single piece of fabric to make clothing, these layered sheets can be cut and formed into various shapes. Their strength and elasticity make them well-suited for covering large areas or parts that move frequently.

Fine fiber layered sheets can be cut and fashioned into any shape. Leveraging this property, and to test their effectiveness, two sheets were cut into the shape of a hand and joined together to create a glove. The glove was then worn on a hand—a part of the body prone to skin trouble—with the fine fiber on the inside to ensure contact with the skin.

A moisturizer formula was spread on the palm and tested under three conditions: wearing the glove fashioned from the layered sheets, wearing a cotton glove, and wearing nothing. Ordinary daily activities were conducted for two hours in each condition, after which the amount of moisturizer formula remaining was visualized. Results showed that compared to wearing a cotton glove or nothing, the moisturizer formula remained spread evenly up to the fingertips when the glove made from layered sheets was worn. (Figure 3)

Similar to the fine fiber membrane, the strong capillary action of the super-fine fibers allowed the layered sheet to evenly distribute and keep the moisturizer formula on the skin surface.

In a study by Kao, 56 women who regularly use hand cream in winter to manage skin issues on hands tested two treatments for two weeks: using a moisturizer formula alone and applying the moisturizer formula followed by wearing a glove made from the advanced, two-layer structured fine fiber sheet. Findings showed that moisture content in the stratum corneum was significantly higher when wearing the glove with the moisturizer formula than when using a moisturizer formula alone, demonstrating that fine fiber was effective in preventing dryness. In subjective evaluations, the women reported a reduction in dryness, hard skin, itchiness, and pain. They also stated improvements surrounding their quality of life (QOL) ^*4 , including matters related to emotional well-being, such as concerns about physical appearance and feelings of depression.

Kao has devised technology for spinning fine fiber into large sheets and developed a fine fiber layered sheet by spinning fine fiber onto non-woven fabric. This sheet combines the properties of fine fiber membrane with strength and flexibility. Since it can cover large areas or frequently moving parts, it is expected that it can complement skincare in various uses and conditions.

Kao will continue developing new uses for fine fiber to support consumers with skin problems.

Kao, a Japan-based manufacturer of personal care and household products, cosmetics, and specialty chemicals creates high-value-added products and services that provide care and enrichment for the life of all people and the planet. Through its brands such as Attack laundry detergent, Bioré and Jergens skin care products, Laurier sanitary products, Curél, SENSAI, and MOLTON BROWN cosmetics, and Oribe hair care products, Kao is part of the everyday lives of people across Asia, the Americas, Europe, the Middle East, and Africa. Combined with its chemical business, which contributes to a wide range of industries, Kao generates about 1,630 billion yen in annual sales. Kao employs about 32,600 people worldwide and has more than 130 years of history in innovation. As an enterprise that provides products people use on a daily basis, the Kao Group takes responsibility to actively reduce the environmental footprint of its products throughout the product lifecycle. This is laid out in Kao’s ESG strategy, the Kirei Lifestyle Plan, which launched in 2019.
Please visit the Kao Group website for additional information.