LUBRICOMP compounds are engineered resins produced by blending different lubricants to reduce friction and increase wear resistance. Materials like carbon fiber and glass are also used to increase strength and stiffness. Blends of various polymers used in LUBRICOMP compound granules are PC, PA66 GF, PTFE, PA66, CARBON FIBRE, polyamide, HIPS, PP, Polyetheretherketone (PEEK), Polyphenylene oxide (PPO), etc.
LUBRICOMP compounds are commonly used for extending life, reducing squeaks, and minimizing frictional noise of moving parts irrespective of the movement of the plastic part on plastic or plastic part on the metal part. The top-performing LUBRICOMP compounds supplier KSC offers a complete variety of LNP™ LUBRICOMP™ compounds in an array of colors like black, grey, natural, white, red, green, blue, amber, etc. LUBRICOMP compounds are also available with glass beads for applications where high wear resistance is required.
The widely used grades of LUBRICOMP compounds are LNP LUBRICOMP 5CL23 (Based on PVDF), 9X06483, 5CL24 (based on Polyvinylidene Fluoride), 2X00858 ((FEP), 2FL24 (based on Ethylene Tetrafluoroethylene), RFL36XXY & RFL36XXZ (based on Nylon 6/6 resin containing 30% glass fiber, 15% PTFE) available in black and natural color. The selection of LNP™ LUBRICOMP™ COMPOUNDS is made based on particular requirements of specific applications like molding shrinkage, stress at break, burning behavior, humidity absorption, melt temperature, drying time, density, etc. The key properties of LUBRICOMP compounds are self-lubricating, flame resistance, high torque, molding accuracy, noise reduction, wear resistance, fatigue endurance, etc.
LNP LUBRICOMP compounds are encouraging engineers, contractors, manufacturers, interior decorators, and other professionals to use LUBRICOMP variants to replace conventional materials for additional cost savings, better product performance, and better finish. KSC, the prominent LUBRICOMP compounds distributor, provides online technical guidance for the first-time users of LUBRICOMP compound variants.