Introduction to far-infrared fabric for warmth and fitness?



Introduction to far-infrared fabric for warmth and fitness? Introduction to far-infrared fabric for warmth and fitness? With the progress of society and the continuous improvement …

Introduction to far-infrared fabric for warmth and fitness?

Introduction to far-infrared fabric for warmth and fitness?
With the progress of society and the continuous improvement of people’s quality of life, health care has become a fashion pursued by the people. The presence of far-infrared radioactive substances constitutes the health-care mechanism of fabrics. When people wear and use this kind of fabric, it can absorb far-infrared rays from the sun and convert them into heat energy. It can also reflect the heat of the human body to obtain a warming effect. This far-infrared radioactive material can efficiently The ground emits far-infrared rays with a wavelength of 8-14 μm. In addition to being used as thermal insulation materials, it also has the functions of antibacterial, deodorizing, and promoting blood circulation. It is an ideal warm fitness textile.
Far-infrared rays are necessary nutrients for the survival and growth of humans and animals. Far-infrared rays in this band are easily absorbed by the human body. After the human body absorbs them, it not only produces a thermal effect on the surface of the skin, but also produces resonance through molecules, thereby causing the deep layers of the skin to The tissue causes its own heating. This effect can stimulate cell activity, promote the body’s metabolism, thereby improving the blood microcirculation, improving the body’s immunity, and achieving a series of medical and health care effects:
(1) The temperature inside the clothing is higher than that of ordinary fabrics, which has the function of keeping warm;
(2) Wearing clothing made of this fabric gives you a relaxed and comfortable feeling, and has the function of eliminating fatigue and restoring physical strength;
(3) It has the function of relieving pain symptoms such as neuralgia and muscle pain;
(4) It has anti-inflammatory properties for arthritis, frozen shoulder, tracheitis, prostatitis and other inflammations;
(5) It has certain auxiliary medical functions for common diseases such as tumors, coronary heart disease, diabetes, and cerebrovascular disease;
(6) It has antibacterial, deodorizing and beauty functions.
Because far-infrared fabrics have the above-mentioned medical and health care functions, they are often used to make velvet clothes, trousers, underwear, neck protectors, shoulder protectors, abdominal protectors, knee pads, socks, cushions, bedding, bedspreads, etc. It is undoubtedly a blessing for the elderly and patients, athletes who wear light clothes and train in winter, and outdoor or field workers who are exposed to the cold by military officers and soldiers. Even for ordinary people, it can also play a role in disease prevention and health care.
The far-infrared radioactive materials used in the development of far-infrared fabrics are mainly ceramic materials, among which metal oxides such as chromium oxide, magnesium oxide, and zirconium oxide have the best performance. Before use, this far-infrared ceramic must be broken into fine powder with a particle size of several microns or even less than 1 micron. There are two technical routes to combine this ceramic micropowder with textiles to form far-infrared fabrics. One is carried out during the finishing process. Far-infrared ceramic powder, adhesives and additives are used in a certain proportion to form a finishing agent, and then the fabric is coated and padded to make the finishing agent evenly coated. On the fiber or fabric, after drying and heat treatment, the far-infrared ceramic powder is adhered between the yarns of the fabric and between the fibers of the yarn; the second is to use the blending spinning method to evenly add the far-infrared ceramic powder to the fibers or fabrics. between spinning dope.
As far as fiber structure is concerned, in addition to ordinary structures, it also includes hollow fibers, special-shaped fibers, composite fibers, etc. Judging from the far-infrared radiation performance, washing resistance and wearability of far-infrared fabrics, the former is not as good as the latter.
A special process can be used to carbonize seaweed to obtain seaweed carbon. The particle size can reach 0.4 microns. It can be penetrated into polyester filament using a blending spinning method to produce far-infrared washing filament. Its fabric can efficiently radiate far-infrared rays at a temperature close to human body temperature of 35°C, with an emissivity rate as high as 94%. When the amount of seaweed carbon fiber in the fabric reaches 15-30%, the full radiation effect can be obtained, and seaweed carbon is cheap, which can reduce the cost of far-infrared fabrics. There is also glass fiber spinning technology, using ceramic materials such as alumina for high-temperature melt spinning, and then coating it with a thin film through a polymer melting tank, thereby improving the softness of the fiber. When developing high-grade wool fabrics, caustic soda aqueous solution can be used to swell the scales on the surface of the wool fibers before finishing the far-infrared wool fabrics, which can effectively absorb far-infrared ceramic micropowder. When the scales return to their original shape at low temperatures, they will Infrared ceramic micropowder is sealed into wool fibers, thereby improving the quality and performance of far-infrared wool fabrics. In order to further improve the health-care functional properties of far-infrared fabrics, people are seeking to combine technology with other functions, such as combining with the functions of potential thermal insulation fabrics and electric heating fabrics. Thermal storage and insulation fabrics are a type of material that can absorb solar energy and convert high-energy light with a wavelength of less than 2 microns into heat. It can better exert the health care function of far-infrared fabrics. With the development of science and technology, electric heating fabrics have achieved great development in recent years. They are generally woven with stainless steel fiber-incorporated yarns, coated conductive carbon yarns or conductive polymer fiber yarns as far-infrared fabrics. The heat source of fabric is especially suitable for making complex functional products such as far-infrared electric blankets.
Kunshan Yingjie Textile Import and Export Co., Ltd. operates far-infrared health-care functional fabrics that meet the standards. The quality is guaranteed. Welcome to consult and negotiate. The far-infrared health-care functional fabric of Kunshan Yingjie Textile Import and Export Co., Ltd. has the following characteristics:
1. There are different functional fibers, functional fiber combed cotton blends, etc.Fabrics with different ingredients to suit different needs;
2. Concept: high-end quality, high-end products;
3. After testing, Gongfang brand far-infrared fabrics fully meet the requirements of standard mid- and far-infrared health functional textiles. The normal emissivity of Gongfang brand products is 0.92, and the blood flow in animal microcirculation experiments is increased by 50%.
4. Functional fabrics can be customized according to customer needs.
5. Special service: Kunshan Yingjie Textile Import and Export Co., Ltd. can provide functional certification tags. ZguOLl


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