It is well-known that competition skis are equipped with UHMWPE ski bases where PE with ultra-high molecular weight = ultra-long molecular chains is enriched with different additives, first of all carbon black.
UHMWPE is a type of material which is difficult to be processed. The longer the molecular chains, the more problematic the process-ability. One of the few possible processes is sintration. PE in granular form is mixed with soot and other additives and sintered with help of heat and pressure to a coil which is cut to a continuous strip which is grained and flamed
Here the first issue of the existing UHMWPE ski base types originates. The coil has normally a diameter of ca. 1,5 m, the steel form is cooled down from edge to centre resulting in faster cooling of outer coil areas and slower cooling of inner coil areas. Cooling speed is directly influencing the fraction of crystalline and amorphous areas or ordered and disordered molecular structure. Molecular grid arrangement (crystalline and amorphous) is directly influencing the mechanical features and ability of the ski base material to create free cavities = to take additionally applied gliding waxes.
Each ski base surface revealed by each grinding is a original with a unique arrangement of crystalline, amorphous and transition fractions.