Although there are many types of outdoor sports, professional outdoor sports clothing such as assault suits are mainly aimed at mountaineering, skiing and other high-cold sports. In addition to the physical and skill requirements of the participants, outdoor sports also require outdoor clothing that can adapt to harsh weather and complex geographical environments to ensure the personal safety of the athletes. Although there is no essential difference between outdoor sports clothing and home clothing, due to the two characteristics of outdoor and sports, the requirements for clothing are relatively strict and demanding: outdoor sports generate a lot of heat and sweat evaporates a lot, so clothing is required to have good heat dissipation and breathability. It is inevitable to encounter wind, rain, snow and fog in the wild, and clothing must have certain waterproof properties. For outdoor sports, you want to reduce the load as much as possible, and the clothing should be as light as possible. The wind is strong in the wild, the mountains are cold, and the windproof and warm performance requirements are high. Outdoor washing conditions are limited, and the clothing must be antibacterial, deodorant and anti-stick. High pollution requirements. For outdoor work such as rock climbing and forest walking, clothing requires good stretch resistance and tear resistance… These performance requirements are very demanding from the perspective of textile technology, and many indicators even conflict with each other. No single natural or chemical fiber can meet these requirements. These functions can only be achieved through the combination of multiple fibers and multi-channel chemical finishing. 1. Warmth retention: Although warmth retention is closely related to fabric thickness, outdoor sports do not allow clothing to be too heavy. Therefore, it must be both warm and light to meet the special requirements of outdoor sports clothing. The most common method is to add special ceramic powder containing chromium oxide, magnesium oxide, zirconium oxide, etc. into the spinning solution of polyester and other synthetic fibers, especially nano-scale fine ceramic powder, which can absorb visible light such as sunlight and convert it into Thermal energy can also reflect the far-infrared rays emitted by the human body itself, so it has excellent heat preservation and heat storage properties. Of course, far-infrared ceramic powder, adhesive and cross-linking agent can also be formulated as a finishing agent, and the woven fabric can be coated, and then dried and baked to make the nano-ceramic powder adhere to the fabric surface and yarns. between. This finishing agent emits far-infrared rays with a wavelength of 8 to 14 μm, and also has health-care functions such as antibacterial, deodorizing, and promoting blood circulation. In addition, based on the principle of bionics and referring to the structure of polar bear hair, the polyester fiber is made into a porous hollow shape inside, so that the fiber contains a large amount of stagnant air, and the outside is made into a spiral curl shape to maintain fluffiness, all of which can ensure a light texture. It has a good thermal insulation effect. Of course, making clothes or even fabrics into double or even triple layers to increase the stagnant air layer is also one of the most traditional measures to keep warm. 2. Waterproof and breathable: Sports will emit a lot of sweat, and wind and rain are inevitable outdoors. This is a contradiction in itself: it must be able to prevent rain and snow from being soaked, and it must be able to discharge the sweat emitted by the body in a timely manner. Fortunately, the human body emits water vapor in a single molecule state, while rain and snow are liquid water droplets in an aggregated state. Their volumes are very different. In addition, liquid water has a characteristic called surface tension, which is the characteristic of gathering its own volume. The water we see on the lotus leaf is in the form of granular water drops rather than flat water stains. This is Because there is a layer of waxy hair tissue on the surface of the lotus leaf, water droplets cannot spread and penetrate on this layer of waxy hairs due to surface tension. If you dissolve a drop of detergent or washing powder into water beads, the water beads will immediately disintegrate and spread out on the lotus leaf because the detergent can greatly reduce the surface tension of the liquid. Waterproof and breathable clothing takes advantage of the surface tension properties of water and coats the fabric with a layer of PTFE (which has the same chemical composition but different physical structure as polytetrafluoroethylene PTFE, the “king of corrosion-resistant fibers”) to enhance the surface tension of the fabric. The chemical coating makes the water droplets tighten as much as possible without spreading and infiltrating the surface of the fabric, making it impossible to penetrate the pores in the fabric tissue. At the same time, this coating is porous, and single-molecule water vapor can smoothly penetrate the capillary pores between fibers and emit to the surface of the fabric. If you stop to rest in the wild after performing a large amount of exercise, water droplets may form on the inner layer of the clothes due to the low outside temperature and the inability of sweat to escape in time, making people feel very uncomfortable. This is the so-called ” condensation” phenomenon. There is a special moisture permeability finishing process called “low condensation”. It uses polyurethane (PU) and hydrophilic nano-ceramic powder to coat the fabric and absorb it when the body evaporates a large amount of sweat. This prevents the water vapor inside the clothes from exceeding the saturation vapor pressure and converting into water droplets. In addition to finding ways to work with fibers and coatings, the fabric structure can also be used to absorb moisture and sweat as much as possible. For example, using a double-layer tissue structure, the inner layer of the skin-fitting layer is made of hydrophobic fibers, and the outer layer is made of hydrophilic fibers. In this way, sweat can be transferred from the skin to the inner fibers by capillary action, and then due to the hydrophilicity of the outer layer. The binding force between fibers and water molecules is stronger than the hydrophobic fibers in the inner layer, and the water molecules are transferred from the inner layer of the fabric to the outer layer again, and finally emitted into the atmosphere. 3. Antibacterial and anti-odor properties: Due to the characteristics of exercise, sweat and sebaceous glands are secreted in large quantities. In outdoor conditions, it is impossible to change clothes frequently. In a suitable temperature and humidity environment, microorganisms will multiply in large numbers, causing people to emit unsightly…��Odor and triggers itching. Therefore, regular outdoor sportswear is finished with antibacterial and deodorizing chemicals. The finishing approach is generally to fix bactericidal organic quaternary ammonium and imidazoline surfactants or heavy metal ions such as silver and copper on the fibers through resins and cross-linking agents to make them have a certain degree of washability. Of course, an important principle when choosing a fungicide must be non-toxic or low toxicity, otherwise it will be a waste of time. In recent years, Japan has done a lot of research on natural antibacterial finishing agents. For example, it uses aromatic oil extracts with bactericidal effects such as aloe vera, mugwort leaves, eucalyptus leaves, roses, etc., and coats them in porous organic microcapsules or porous The biodegradable ceramic powder is attached to the fabric and cross-linked with resin to fix it. The bactericide is slowly released through mechanical effects such as friction and accumulation to achieve the purpose of durable antibacterial finishing. This type of natural antibacterial agent is not only non-toxic and harmless, but also has certain health care functions. It should be the development direction of antibacterial finishing. However, because the means of fixing antibacterial agents are currently very limited, the washing resistance of antibacterial agents is not good enough. The antibacterial performance decreases every time it is washed, and usually disappears completely after dozens of times. The American Dow Corning AEGIS antifungal and antibacterial agent uses molecular bonding to evenly distribute eighteen long carbon chains on the surface of the fabric and integrate it with the fabric fibers. It then relies on physical action for sterilization, unlike other sterilization methods that use chemical action. , to achieve permanent antibacterial effect. 4. Anti-fouling and easy decontamination: Outdoor sports often walk through the muddy and humid mountains and forests, and it is inevitable for clothes to get dirty. This requires that the appearance of clothing should be as hard as possible to be stained. Contamination, and once contaminated, it must be easy to wash and remove. It changes the surface properties of the fiber and greatly increases the surface tension of the fabric, making it difficult for oil and other stains to penetrate into the interior of the fabric. Slight stains can be removed by wiping with a damp cloth, and heavier stains are also easy to clean. Anti-fouling finishing can not only prevent oil pollution, but also has waterproof and moisture-permeable properties. It is generally called “three-proof finishing” (water-repellent, oil-repellent, and anti-fouling). It is a relatively practical and effective advanced chemical finishing method. It is often used in the outer layer of clothing and the fabric finishing of backpacks, shoes and tents. 5. Anti-static and anti-radiation finishing. Mountaineering is the core content of outdoor sports. In addition to virgin dense forests, the environment in high mountain plateau areas above 3,000 meters above sea level is generally relatively dry due to low air pressure and easy evaporation of water. Outdoor clothing is basically It is made of chemical fiber fabric, so the problem of static electricity is more prominent. The harm of static electricity is generally manifested in that clothes are prone to fluffing and pilling, are easily contaminated with dust and dirt, and have an electric shock and sticky feeling when close to the skin, etc. If you carry sophisticated electronic instruments such as electronic compasses, altitude meters, GPS navigators, etc., they may be interfered by static electricity from clothing and cause errors, which may lead to serious consequences. Any objects rubbing against each other may generate static electricity, but only dry insulating objects can accumulate static electricity and cause harm. Therefore, the best antistatic fabrics are of course made of natural fibers. However, as mentioned above, pure natural fibers are difficult to meet the special requirements of outdoor sports, and even natural fibers will suffer from the lack of water molecules in very dry environments. And produce static electricity. There are two main methods for antistatic finishing of fabrics: one is to simply weave metal wires into the fabric to make a conductive fabric (which is also an electromagnetic wave shielding fabric and a radiation-proof fabric) to conduct and dissipate the static electricity generated by friction to the outside world in a timely manner . However, this kind of fabric is not suitable for sportswear, mainly because it has poor softness and is not comfortable enough. Another method is to use hygroscopic antistatic agents such as block polyether and polyacrylate to coat the surface of the fabric with a chemical film that can absorb water molecules, forming a continuous conductive water film on the surface of the fabric. Dissipate static electricity. Due to the relatively thinning of the atmosphere in high-altitude areas, the blocking and filtering effect on ultraviolet rays is greatly reduced, and the intensity of ultraviolet rays is much higher than that in low-altitude areas. Ultraviolet rays can effectively promote the production of vitamins and have a bactericidal effect, but excessive exposure can cause damage to human skin. The penetrating power of ultraviolet rays is very strong, and ordinary fiber fabrics cannot completely shield it from irradiation. The resin is used to combine nano-scale inorganic titanium dioxide (TiO2), nano-zinc oxide (ZnO) and other ultraviolet shielding agents and organic salicylic acid, cyanoacrylate, benzophenone, benzotriazole and other ultraviolet absorbers. The cross-linking method is fixed on the fabric, which can play a certain role in radiation protection. It can be said that outdoor sportswear represents the latest cutting-edge technology in the development of today’s textile science. This is also an important reason why a seemingly inconspicuous mountaineering jacket or jacket can easily cost hundreds, thousands or even thousands of dollars (of course this is not excluded) Factors such as brand value and functional style). Although the price is indeed not low, a set of professional outdoor sportswear that integrates windproof, breathable, moisture-proof, warm, radiation-proof and other properties may sometimes have the same meaning as life for a climber! However, due to the diversity, complexity and unpredictability of outdoor sports, the functions of clothing may have many completely different requirements depending on the environment and movement methods. Therefore, as far as current science and technology are concerned, outdoor sports clothing The overall performance is still difficult to achieve perfection in every aspect.
AAA Composite Fabric Net ASE3RETRUY7I8OFG
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AAA Composite Fabric Net ASE3RETRUY7I8OFG
