Zhejiang QianXiLong Special Co., Ltd and Longkui New Material Co., Ltd are highly regarded companies located in Yongkang Economic Development Zone, Zhejiang, China. These companies were created by the renowned Qianxi Group, a prominent investment group. QianXiLong Special Fiber (QXL) is an exceptional high-tech enterprise that focuses on research, development, and manufacturing of UHMWPE (Ultra High Molecular Weight Polyethylene) fibers. Our company boasts three plants situated in Yongkang, Longyou, and Shanxi, with a combined capacity of 4000 tons. Our fibers come in a wide range of superfine 8D to 2400D, and even up to 40000D, with high tenacity fibers (tenacity exceeding 42 cN/dtex) being our specialty. On the other hand, Longkui New Material Co., Ltd (Longkui) is a top-tier high-tech enterprise that concentrates on the development of UHMWPE protective materials.
Zhejiang QianXiLong Special Co., Ltd and Longkui New Material Co., Ltd are highly regarded companies located in Yongkang Economic Development Zone, Zhejiang, China. These companies were created by the renowned Qianxi Group, a prominent investment group. QianXiLong Special Fiber (QXL) is an exceptional high-tech enterprise that focuses on research, development, and manufacturing of UHMWPE (Ultra High Molecular Weight Polyethylene) fibers.
We have 3 manufacturing bases with a total capacity of 4000tons, fast delivery, one-stop service.
Our fibers come in a wide range of superfine 8D to 2400D, and even up to 40000D, with high tenacity fibers (tenacity exceeding 42 cN/dtex) being our specialty.
With a low density of 0.97g/m³, UHMWPE (Ultra-High Molecular Weight Polyethylene) fiber is the lightest of the high-performance fibers. Therefore, the tear resistant fabric made of UHMWPE fiber is not only lightweight but also has excellent tensile and tear strength.
UHMWPE fiber (short abbreviation of Ultra High Molecular Weight Polyethylene fiber), It is one of the three high-performance fibers (carbon fiber, aramid fiber and ultra-high molecular weight polyethylene fiber) in the world.
UHMWPE fiber (short abbreviation of Ultra High Molecular Weight Polyethylene fiber), It is one of the three high-performance fibers (carbon fiber, aramid fiber and ultra-high molecular weight polyethylene fiber) in the world.
UHMWPE fiber (short abbreviation of Ultra High Molecular Weight Polyethylene fiber), it is one of the three high-performance fibers (carbon fiber, aramid fiber and ultra-high molecular weight polyethylene fiber) in the world.
What Is Anti-Trauma Fabric
Anti-trauma fabric (short abbreviation of Ultra High Molecular Weight Polyethylene fiber), it is one of the three high-performance fibers (carbon fiber, aramid fiber and ultra-high molecular weight polyethylene fiber) in the world. Anti-trauma fabric is made of QXL UHMWPE fiber, the yarn size >1000D, has many advantages comparing conventional fabrics.
Advantages of Anti-Trauma Fabric
Anti-trauma fabric has extremely high impact absorption capacity, which can withstand repeated impact and is not easily damaged.
Anti-trauma fabric has very good wear resistance and can maintain its integrity even in extreme environments.
Anti-trauma fabric has a smooth surface and low friction coefficient, making it an ideal sliding and anti-friction material.
Applications of Anti-Trauma Fabric
Because of the wear-resistant and impact-resistant characteristics, anti-trauma fabric is widely used to make clothes for sports enthusiasts.
For joining, in a single loom step, at least two fabric sheets and by interlacing the faces thereof using concurrent fibres on the plane of the fabrics, forming an anti-trauma ballistic layer. The distancing of the fabric sheets and is a function of the length of the concurrent fibres, determining the desired thickness for the anti-trauma ballistic layer, depending on the type of protection to which said layer will be applied. At the instant of impact of the projectile, the energy from the shockwave from the impact is dispersed along the length of the concurrent fibres between the fabric sheets and, and the compression of said fibres absorbs the energy, the expansion of the shockwave and the stretching of the fabric sheets. This effect reduces deformation of the bullet-proof vest, for example preventing traumatic shock while maintaining control of the trauma caused by the impact and recorded by the backface signature (BFS) deformation.
(EN) The invention aims to assemble, in a single weaving step, at least two sheets of fabric and by interlacing their faces by means of fibers transverse to the plane of the fabrics, so as to form an anti-trauma ballistic layer. The spacing of the fabric sheets and depends on the length of the transverse fibers, determining the desired thickness for the anti-trauma ballistic layer, depending on the type of protection for which it is intended. The impact of the projectile causes the dispersion of the energy of the shock wave of the impact on the length of the transverse fibers between the fabric sheets and . The invention is characterized in that these same fibers, thanks to their compression, make it possible to absorb the energy, the expansion of the shock wave and the elongation of the fabric sheets and . This results in a reduced deformation of the bulletproof vest, for example, which makes it possible to avoid a traumatic shock, while maintaining control of the trauma caused by the impact and the BFS deformation. (PT) For a union, with a single tear, we have several layers of fabric interlaced with several fibers concordant to the plano of the fabrics, forming an anti-trauma ballistic cam. The distance between the laminas of the tecido and the conformity or compression of the corresponding fibers determine the desiccated hope for the anti-trauma ballistic camera, the agreement with the type of protection that will be applied. No moment of impact on the projectile, there is dispersal of energy from the shock wave when the impact waves are compressed for a long time between the fibers of the fibers, because of these fibers, due to their compression, the energy is absorbed, the shock wave expands and the shock wave expands. As a result, there is a small amount of deformation that can be caused by damage such as avoiding trauma and sending damage or controlling the trauma causing the impact and registering the deformation BFS.
What Makes a Anti-Trauma Fabric Durable?
Some fabrics are treated with coatings or finishes that enhance their durability. Examples include fabrics with dwr (durable water repellent) finishes or those treated with abrasion-resistant coatings.
Key Factors for Choosing Anti-Trauma Fabric Material
To select the right anti-trauma fabric, it is essential to understand the operating conditions of your industry. This includes factors such as temperature, the presence of chemical agents, humidity, and pressure. Knowing these variables allows you to choose a material that not only resists wear but also remains stable and functional under extreme conditions, such as anti-wear steel subjected to a heat treatment of quenching and tempering to improve its durability.
Identifying the types of wear that are prevalent in your industry is crucial. For example, in mining, abrasive wear is common, while in the chemical industry, corrosion is a more significant problem. Understanding the type of wear will help you select materials specifically designed to combat those problems, thereby increasing the lifespan of your equipment. A detailed assessment also considers wear resistance in high-temperature and abrasion-erosion applications.
Wear severity varies depending on the environment and operating conditions. A detailed assessment will allow you to determine the need for high-strength solutions or whether a lower-cost material may suffice. In addition, this analysis can help plan maintenance and replacements more effectively, thus optimizing resources. It is also important to consider the types of steel used and the manufacturing processes suitable for each application.
Anti-Trauma Fabric Strength Comparison
Tensile and abrasion tests tell us about the durability of anti-trauma fabrics. These tests measure the force required to stretch or break a anti-trauma fabric, as well as its ability to resist frictional wear. Resistance to elements such as water, fire and chemicals is also important for certain work environments. Water resistance tests evaluate the anti-trauma fabric's ability to repel water or dry quickly, while fire resistance tests measure how quickly a anti-trauma fabric can catch fire and burn. Chemical testing, on the other hand, determines whether a anti-trauma fabric can withstand corrosive substances without degrading.
For example, anti-trauma fabrics used in chemical industries or fire services must be tested for their ability to resist these specific elements without degrading. The results of these tests are essential to ensure the safety of workers exposed to high risks, and to ensure that clothing provides the necessary protection in extreme conditions.
We examine the relative benefits of each anti-trauma fabric under usage conditions to provide a clear overview of how they perform in various scenarios. Each anti-trauma fabric has unique properties that may be advantaged or limited depending on the environment. Nylon, for example, is extremely tear-resistant and often used for outdoor gear and sportswear due to its strength and lightness. However, it may not offer the same fire resistance as kevlar, a favored material in the manufacture of fire-resistant clothing and body armor.
It is necessary to know the limitations and practical considerations of each material to make an informed choice. This analysis helps not only to select the most suitable anti-trauma fabric for a specific type of use but also to understand the trade-offs between strength, comfort, and other factors such as cost and ease of maintenance. For example, although kevlar provides excellent protection, its higher cost and specific care may not be justified for all uses. Likewise, more economical anti-trauma fabrics like polyester may be sufficient for less demanding applications, providing a good balance between cost and performance.
Anti-Trauma Fabric Storage Tips
Clean and thoroughly dry anti-trauma fabric items, or have them dry cleaned, even if they look clean. Bugs can be burrowed out of sight, light stains can set in and darken over time, ground-in dirt can lead to dry rot, and invisible body oils can attract insets and start to smell as they sit. One caveat: The risks of cleaning heirloom clothing or quilts may outweigh the benefits, so do your research to find your best personal option.
Different items and anti-trauma fabric types call for different specialty measures: Carpets and rugs should be rolled, to prevent fiber damage and permanent creasing, then wrapped in extra-durable paper, such as waterproof plastic, which can trap moisture. Inspect annually. Out-of-season clothes are fine in sealed plastic bins or garment bags, as long as they won't be stored there longer than a few months at a time. Heirloom clothing and textiles should be individually wrapped in-and possibly also stuffed with-acid-free tissue paper. Contain them in an archival box or cotton garment bag, which resists dust and light but allows airflow. If hanging items, use padded hangers. Wrap them in cotton anti-trauma fabric, such as a clean sheet, and place them in an airtight bin or bag. This will stop bugs, but also airflow, so remember to periodically air items out. Know that mothballs are extremely toxic, and cedar and herbs aren't foolproof, plus they lose strength over time. Quilts and comforters should be rolled, or folded on the diagonal weave of anti-trauma fabric (with crumpled-up acid-free tissue paper tucked into folds), to prevent permanent creasing. Hang in a cloth garment bag, store flat in an acid-free box or wrap in a clean cotton sheet. Note: Never store quilts and other anti-trauma fabrics on raw wood, such as inside an unfinished chest, which can stain and weaken anti-trauma fabric.
No matter the textile, you want to protect it from light and temperature and humidity extremes, which often means the garage, attic or unfinished basement simply won't do. Instead, choose safer (aka clean, cool, dark and dry) spots, such as an out-of-the way closet or under the bed. For ultimate safekeeping, store your anti-trauma fabrics in a climate-controlled storage unit. These units provide better control of humidity and decrease the presence of dust and bugs.
Zhejiang QianXiLong Special Co., Ltd and Longkui New Material Co., Ltd are highly regarded companies located in Yongkang Economic Development Zone, Zhejiang, China. These companies were created by the renowned Qianxi Group, a prominent investment group. QianXiLong Special Fiber (QXL) is an exceptional high-tech enterprise that focuses on research, development, and manufacturing of UHMWPE (Ultra High Molecular Weight Polyethylene) fibers. Our company boasts three plants situated in Yongkang, Longyou, and Shanxi, with a combined capacity of 4000 tons. Our fibers come in a wide range of superfine 8D to 2400D, and even up to 40000D, with high tenacity fibers (tenacity exceeding 42 cN/dtex) being our specialty. On the other hand, Longkui New Material Co., Ltd (Longkui) is a top-tier high-tech enterprise that concentrates on the development of UHMWPE protective materials. We specialize in UD composite material and its series of derivative products, including bulletproof vests and armor products. Our companies are committed to continuous improvement and establishing ourselves as trustworthy brands and enterprises. We adhere to the principle of providing customers with better, lighter, and safer products and are dedicated to offering professional solutions for UHMWPE fibers and protective materials, ensuring that people's needs for a better life and safety protection are met.
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