Ropes

       A modern climbing rope is much different than its
       predecessors, and it is much different than any other
       kind of rope available for purchase. A climbing rope
       almost always is made of nylon and it almost always
       has a kernmantle construction. We don’t have to be
       industrial engineers to understand why this mate-
       rial and construction are attractive to manufacturers.
       Nylon is a cheaper material than many other options.
       It is a versatile material and can easily be used to cre-
       ate small diameter ropes, large diameter ropes, dynamic
       ropes, and static ropes. The kernmantle construction
       combines the historical advantages of a twisted rope
       (in the core) with the braided rope (on the sheath).
       As a result, nylon can be used to create a product that
       suits all the applications rock climbers devise for it, in
       hundreds of colors and patterns.
          We don’t have to be chemists to understand all the
       foibles of nylon ropes. Nylon’s manufactured strength
       can be greatly decreased by heat, mildew, mold, chem-
       ical contamination, and UV light. Chemists might
       find more precise ways to describe how much the
       manufactured strength can be decreased by what tem-
       peratures, types and quantity of mold and mildew, and
       frequency and duration of UV light. But that is not
       always the most helpful information for rock climbers.
          In typical use, we cannot create enough heat
       through friction to melt our ropes, and we can avoid
       all other contaminants simply by thinking of the rope
       as a precious and vital member of our team. We clean
       it when it’s dirty. We dry it when it’s wet. We retire
       it when it’s too old and tired to continue climbing,
       and we keep it away from all the things that could be
       harmful to it.

       2       CLIMBING: KNOTS