Shibaam’s Nylon MOS2 and Oilon rods deliver superior wear resistance, low friction, and excellent load-bearing performance, making them ideal for high-motion, high-load, and lubrication-challenging industrial environments.
Reinforced surfaces resist abrasion and friction, ensuring stable performance in continuous operation.
MOS2 and oil-filled matrices lower friction, enabling smoother motion without external lubricants.
Both materials handle static and dynamic loads reliably, preventing deformation under stress.
Resist heat, impact, and common chemicals, maintaining dimensional accuracy and long service life.
Shibaam MOS2 and Oilon nylon rods deliver superior wear performance for demanding industrial machinery locations.
Ideal for bushings, rollers, and guides used in high-load mechanical assemblies and equipment.
Supports pulleys, wear pads, and sliding blocks in conveyors, loaders, and transfer systems.
Used for cam followers, tensioners, spacers across engine assembly, tooling, and fixture stations.
Performs well as rollers, guides, and sleeves in high-speed spinning, weaving, and winding sections.
Suitable for low-friction wear parts in pump housings, actuator mounts, and hydraulic equipment.
Withstands impact and abrasion in crusher liners, feeder components, and screening equipment.
Our MOS2-filled and Oilon-grade Nylon rods deliver enhanced lubrication, superior wear resistance, and exceptional stability, making them ideal for high-load, high-speed, and continuous-operation environments.
MOS2 and Oilon additives significantly improve abrasion resistance, enabling longer life in high-friction and repetitive-motion applications.
These grades provide improved internal lubrication, reducing friction, heat buildup, and the need for external greases or oils.
Engineered to withstand greater mechanical stress, impact, and load, making them reliable for demanding industrial components.
Delivers consistent strength, low deformation, and smooth operation even under continuous movement, vibration, or varying temperatures.
