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Shell brushed PV cloth is a new composite material that combines shell fiber and polyvinyl chloride (PV) material. As a natural polymer material, shell fiber has excellent properties such as high strength, high toughness, wear resistance and corrosion resistance. Polyvinyl chloride (PV) material is known for its excellent waterproof, moisture-proof, fire-proof and weather-resistant properties. Combining these two materials through a special process, a unique composite material, shell brushed PV cloth, is formed.
Shell brushed PV cloth not only inherits the excellent properties of shell fiber and PV materials, but also forms a fine fluff layer through the treatment of the brushing process. This fluff layer not only gives the product a soft touch and comfortable experience, but also achieves a significant improvement in wear resistance.
The fluff layer is the key to the soft and comfortable touch of shell brushed PV cloth. Through the treatment of the brushing process, the fibers on the cloth are pulled and combed to form a layer of fine fluff. The presence of this layer of fluff makes the shell brushed PV cloth more delicate and soft to the touch, giving people a comfortable and warm feeling.
In daily life, we often come into contact with various textiles, such as clothing, curtains, sofa covers, etc. The touch of these textiles often directly affects our use experience. The shell brushed PV cloth has won the favor of the majority of users with its soft fluff layer. Whether it is used as home decoration or outdoor products, the shell brushed PV cloth can provide users with a comfortable use experience.
In addition to the soft and comfortable touch, the fluff layer also gives the shell brushed PV cloth excellent wear resistance. This performance improvement is mainly due to the fact that the fluff layer can effectively disperse the direct impact of external forces on the cloth surface.
When external forces act on the cloth surface, the fluff layer can absorb and disperse these impact forces like a cushion. In this way, the direct contact area and friction strength between the cloth surface and the external force are greatly reduced. Therefore, under the same external force, the degree of wear of the shell brushed PV cloth is much lower than that of ordinary textiles.
Specifically, the significant improvement of the wear resistance of the fluff layer is mainly reflected in the following aspects:
1. Reduce the friction area
The existence of the fluff layer greatly reduces the direct contact area between the fabric and the external force. During the friction process, the fluff layer can cover the surface of the fabric like a ""protective film"" to reduce direct contact with the external force. In this way, the friction area is effectively controlled and the degree of wear is reduced accordingly.
2. Disperse impact force
The fluff layer also has good elasticity. When external force acts on the fabric, the fluff layer can elastically deform like a spring to absorb and disperse these impact forces. In this way, the impact force on the fabric is greatly weakened, and the degree of wear is reduced accordingly.
3. Increase the thickness of the wear-resistant layer
The existence of the fluff layer is equivalent to adding a wear-resistant layer to the fabric. This wear-resistant layer can be worn to a certain extent under the action of external force, thereby protecting the fabric from damage. Therefore, in the long-term use process, the wear resistance of the shell brushed PV cloth has been significantly improved.
In order to verify the effect of the fluff layer on the wear resistance of the shell brushed PV cloth, we conducted a series of experiments. The experimental results show that under the same external force, the shell brushed PV cloth with a fluff layer has a much lower wear degree than ordinary textiles.
We selected two materials for comparative experiments: one is the shell brushed PV cloth with a fluff layer (experimental group), and the other is ordinary textiles (control group). During the experiment, we used the same friction force and friction distance to perform friction tests on the two materials, and observed and recorded the wear.
The experimental results show that under the same external force, the wear degree of the experimental group material is much lower than that of the control group material. Specifically, after the friction test, the surface of the experimental group material still maintains a relatively complete fluff layer structure; while the surface of the control group material shows obvious wear marks and fiber breakage.
This experimental result fully proves the significant improvement of the fluff layer on the wear resistance of the shell brushed PV cloth. In practical applications, this performance improvement will bring users a more durable and reliable use experience.
With its soft fluff layer and excellent wear resistance, the shell brushed PV cloth has shown excellent performance in multiple application scenarios. Here are several typical application scenarios:
1. Home decoration
In the field of home decoration, shell brushed PV cloth is widely used in the production of sofa covers, curtains, carpets and other products. These products not only have a soft touch and a comfortable experience, but also can effectively resist friction and wear in daily life, extending the service life.
2. Outdoor products
In the field of outdoor products, shell brushed PV cloth also shows excellent performance. Due to its excellent wear resistance and waterproof performance, shell brushed PV cloth is widely used in the production of tents, backpacks, outdoor seats and other products. These products can maintain good use status in harsh outdoor environments and provide users with reliable protection.
3. Automotive interior
In the field of automotive interior, shell brushed PV cloth is also widely used. Due to its soft touch and wear resistance, shell brushed PV cloth is used to make automotive interior products such as seat covers and steering wheel covers. These products can not only improve the comfort and safety of drivers, but also effectively resist friction and wear in daily use.
