M-Tac Combat Shirt Gen.II Pro NYCO Extreme

Kirjeldus

The summer combat shirt from M-Tac combines high-quality materials, the latest production technologies and well-thought-out functionality. The torso of the shirt is made of Polartec fire resist knitted material (66% modacrylic, 29% lyocell, 5% span). Modacrylic forms the largest proportion of this material. Fabrics made with the inclusion of this synthetic fiber are resistant to fire and, accordingly, ignition . In combination with the other fibres that comprise the Polartec fire resist material, creates a unique combination of fire and water resistance, softness and elasticity. The sleeves and collar are sewn from durable American NYCO Extreme fabric from Brookwood (57% nylon, 43% cotton). This lightweight material is approximately 3 times more tear-resistant, 10 times more breathable and dries faster than regular NYCO fabric. The designers have added mesh inserts under the armpits to improve ventilation and moisture control. Also on the sleeves, the designers provided vertical pockets covered with a flap for storing valuables. Velcro panels are equipped with holes for chemical light and stationary. There are additional pen pockets on the left sleeve. A tactical shirt can significantly improve comfort and thermoregulation when wearing body armor or loading systems. This model is convenient to use in both warm and cool seasons. Materials: NYCO Extreme (57% nylon, 43% cotton) Polartec fire resist (66% modacrylic, 29% lyocell, 5% span) Additionally: YKK Features: Flap-covered arm pockets with vertical entry. Mesh inserts under the arms for optimal thermoregulation. Velcro panels with compartments for chemical light. Materials from the USA are valued for their excellent quality. All fabrics are carefully dyed, and you don39;t have to worry about the product fading during washing or bleaching in the sun. Many well-known fashion designers of clothes and accessories turn to American fabric manufacturers. Camouflage “MULTICAM” was developed by the American company Crye Precision in collaboration with the U.S. Army Soldier Systems Center, commonly known as the U.S. Army Natick Labs. Creating the MULTICAM pattern took over eight years of expeditions, scientific research, data analysis, and practical field tests. It was designed to serve as a universal camouflage solution for the American army. The need for a new camouflage became evident after Operation Desert Storm in Iraq. At the time, the camouflage patterns in use, such as Woodland for forest terrain and Tri-Color Desert for desert operations, failed to provide adequate concealment for soldiers. Each operation still required specialized camouflage, complicating supply logistics and decreasing soldier safety. Even after introducing a new universal digital camouflage (Digital) during operations in Afghanistan and Iraq, the situation did not significantly improve. It became clear that a single universal pattern was necessary, one that would allow a soldier to blend into any terrain and at any distance from an observer. The goal was to create camouflage that worked equally well against various backgrounds, including vegetation, desert, rocky terrain, urban buildings, and ruins, under different lighting conditions and in any climate throughout the year. How does this camouflage work? It seemed almost impossible to achieve such a versatile pattern. However, the designers utilized the limitations of human vision and the structure of our eyes to their advantage. In theory, for camouflage to be effective at long distances, it should consist of large, blurred spots. At closer ranges, especially against backgrounds of foliage and vegetation where the human eye detects small objects more clearly, the pattern should incorporate small, rounded elements of the dominant background. The developers found that the predominant backgrounds across most regions of the globe share similar gradients of green and brown. An important revelation was that black, which is commonly used in camouflage patterns worldwide, does not actually appear in nature. By integrating their findings and conducting computer simulations that layered over a thousand images, the developers successfully created the MULTICAM pattern. Near Infrared (NIR) technology is utilized by the US Department of Defense to minimize detection by NIR electro-optical sensors. These sensors do not detect infrared radiation. NIR uniforms are made from a special fabric that helps soldiers maintain a temperature similar to that of the surrounding landscape, making them harder to spot. Additionally, NIR technology reduces light reflection, making the uniforms less visible in low-light conditions