With the progress of science and technology and the development of society, people's requirements for the quality of life are increasing, and the requirements for health are getting higher and higher, but the existing health care methods are limited and the scope of application is small, and for people every day The clothing or home textile products that need to be contacted do not have such a function. Therefore, the development of clothing or home textile fabrics with health care functions is an urgent technical problem to be solved.

　　crystal fiberTechnical implementation elements:

The technical problem to be solved by the crystal fiber invention is to provide a crystal fiber which is completely different from the prior art. The fabric containing the crystal fiber described in the invention is comfortable to wear, beautiful, high energy, can promote blood circulation, has health care functions, and has good market prospects.

　　crystal fiberThe invention provides the characteristics of a crystal fiber. The raw materials are composed of the following components: quartz, 20-30 days, 20-30 Maifan stone, 10-20 days, 10-20 days, 10-20 agate stone, Ms. Tomalin 15-25 days, biotite 6-8, wood fish stone 6-8, down 5-10, turquoise, 5-8 basalt 1-5,1-5 Taishi, in recent years, the company 5 to 10, the manganese ore. 3~8, 10~20 pearls, 10~20 corals.

The crystal fiber invention also provides a method for preparing crystal fibers, the steps of which are as follows:

Step: the crystal fiber raw material and viscose high temperature rotary spray synthesis crystal fiber;

Two steps: water spray room temperature curing 3h;

Three steps: 80 DEG C drying 30min, get the finished product.

Furthermore, the viscose is cotton fibers and/or bamboo charcoal fibers and/or bamboo fibers and/or ice silk and/or tencel.

The invention also provides the use of the crystalline fiber in the preparation of cloth. Crystal fiber fabrics are used for home textiles, underwear or other textiles that are in direct contact with human skin; the mass percentage of crystal fibers in the fabric is 25%, and the mass percentage refers to the percentage of the quality of crystal fibers in the quality of the fabric.

On the basis of not violating the common sense in the art, a better example of the present invention can be obtained by arbitrarily combining the above preferred conditions.

　　crystal fiberThe reagents and materials used in the invention are commercially available.

The positive progress effect of the patented technology of the crystal fiber invention is that the cloth containing the crystal fiber of the patented technology of the present invention is not only comfortable and beautiful to wear, but also has high energy, can promote blood circulation, has a health care function, and has a good market prospect.

With the rapid development of modern industry, the requirements for high temperature resistance of heat-resistant materials are also increasing. In the past 20 years, people have developed a variety of oxide ceramic fibers to meet high temperature engineering applications. In response to the slogan of advocating energy conservation and environmental protection and reducing energy waste put forward by today's society, high energy consumption enterprises choose and apply thermal insulation materials with excellent performance, which can not only reduce the radiation heat loss of thermal equipment and improve thermal efficiency, but also realize the high quality and high yield, low consumption and energy saving and emission reduction of industrial thermal equipment.

At present, the more common crystal fiber has been widely used in China's metallurgy, electric power, building materials, petrochemical and other industries, and achieved good results. However, crystalline fibers cannot be used in higher temperature environments. The differences in the composition and structure of ceramic fibers directly determine the high and low temperature strength, creep resistance, elastic modulus, etc. of the fibers, and the length of the fibers determines the form of fiber products: some fibers can be spun, blankets can be made, paper can be made, some fibers can not, and then determine the application fields of different fiber products.