Paracord can be used for a variety of purposes, including in survival situations. Here are few ways to use paracord:
-String a tourniquet: Cut a length of paracord about 18 inches long, and tie one end around your upper arm just below the bicep. Cross the other end over the first and tie it tight. Make sure the knot is tight against your skin. Now pull the tourniquet tight. You may check out this link if you want to know more about uses of Paracord.
-Make a sling: Cut a length of paracord about 12 inches long and place it over your shoulder perpendicular to your body. Now make a loop by folding one end over the top of the cord and pulling it through the loop. Make sure the fold is close to the end of the cord so that it forms a knot when folded over.
-Apply a tourniquet: If the wound is severe and won't close on its own, make a tourniquet by wrapping a length of paracord around your arm above the wound and pulling it tight. This should stop bleeding and help to clot the blood. You will probably have to wrap this around your arm at least twice.
-Relying on someone else: The most important thing you can do if you are wounded is get immediate medical attention from an emergency room trained first aid professional. If that option is not available, find someone who has training and can help you or someone who will go immediately to the hospital (police, your family, friends).
A modern climbing rope made of very fine threads of polyamide: the nylon for you and me. Nylon is one of the long-known polymer materials that are even now being rediscovered, rework and processed again to extend the properties and performance.
Its use in the manufacture of rope with rock climbing, ice, mountaineering and climbing wall environment is an outstanding example of how the old material has been taken out of the boundaries and limitations of the original. You can buy nylon paracord through The Paracord Store.
Although most manufacturers will claim that there is something unique about their braiding process, my research seems to indicate that there is no big difference in manufacturing techniques. Competitive advantage comes from subtle variations in their braiding machine programming and after treatment.
Image Source: Google
Mammut uses high-quality Polyamide 6 (Nylon) for the production of filaments, which run the entire 50 – 60m length of a typical rock climbing rope. In the first stage, between two and six filaments are spun together to create a strong thread.
Depending on the end-use of the right of the rope 4, 5 or 6 threads are then combined in the next phase to produce webbing. Some of the braids are then combined to form the core of the rope. This part of the rope structure that gives some of his power.
Braid braiding process provides important spiral twisted structures, which also increases the elasticity of this rope, a very important factor in protecting the climber falls. Without elasticity, autumn will end too soon, resulting in shock loading intolerable that breaks the ropes – or the climber falling.