# Female Threaded Hollow Bore Rod Ends The Consolidated Bearings TR-4 Rod End is a high-quality precision bearing component designed for applications requiring reliable movement and articulation. This steel-on-steel rod end features a female threaded hollow bore, making it ideal for connecting rods, linkages, and other mechanical systems where precision alignment and stability are crucial. ## Key Features • **Material Construction**: Made from durable steel, ensuring high strength and resistance to wear and tear. • **Thread Type**: Female right-hand thread for secure attachment and easy installation. • **Bore Diameter**: Designed with a hollow bore for reduced weight and increased flexibility in applications. • **Load Capacity**: Engineered to handle significant radial and axial loads, enhancing performance in demanding environments. • **Dimensions**: Catalog number TR-4 with precise measurements tailored for standard applications. ## Applications • **Robotics and Automation**: Used in robotic arms and automated machinery for smooth movement and articulation. • **Automotive**: Ideal for suspension systems and steering linkages where precision and durability are paramount. • **Manufacturing Equipment**: Commonly utilized in conveyor systems and assembly lines to ensure reliable operation. • **Aerospace**: Suitable for applications requiring lightweight yet strong components that can withstand rigorous conditions. ## Benefits • **Enhanced Performance**: The steel-on-steel design provides superior load-bearing capacity and long-lasting performance. • **Versatile Compatibility**: The TR-4 rod end can be easily integrated into various mechanical systems, offering flexibility in design and engineering applications. • **Durability**: Built to withstand harsh environments, reducing the need for frequent replacements and maintenance. • **Customer Support**: Backed by Consolidated Bearings' extensive experience and customer service, ensuring expert assistance and solutions tailored to your needs. --- *Product information compiled with AI assistance for reference purposes.*
