The store will not work correctly when cookies are disabled.
We use cookies and tracking technologies to improve your experience and analyze site usage. Some information may be shared with third parties for analytics and advertising. You can accept all cookies or decline non-essential tracking. To find out more about the cookies we use, see our Privacy policy.
This Ruland slit coupling is a high-performance solution for applications requiring zero-backlash and high torsional stiffness. Its balanced design and low-inertia construction make it ideal for high-speed applications up to 5,000 RPM, while its compact size allows it to fit into confined spaces where longer couplings may not. Suitable for use in a variety of industries, including medical, aerospace, and automation, this coupling can accommodate all forms of misalignment, protecting sensitive bearings and reducing vibration. Its durable aluminum construction and RoHS and REACH compliance make it a reliable choice for demanding applications.
Top product features:
Zero-backlash design for reduced vibration at high speeds up to 5,000 RPM.
Two sets of slit cuts for low inertia, no maintenance, and high torsional stiffness compared to beam couplings.
Accommodates all forms of misalignment with low bearing loads to protect small sensitive bearings.
This Ruland supplied slit coupling is zero-backlash and has a balanced design for reduced vibration at high speeds up to 5,000 RPM. The coupling is made from a single piece of aluminum and has two sets of slit cuts allowing for low inertia, no maintenance, and high torsional stiffness when compared to beam couplings. It is clamp style and has 6mm x 6mm bores, 25.0mm OD, and 25.80mm length. This short style slit coupling can fit in confined spaces where the long style may not fit. It can accommodate all forms of misalignment with low bearing loads helping to protect small sensitive bearings. This slit coupling is manufactured by Reliance Precision Ltd. in their facility in County Cork, Ireland and is RoHS and REACH compliant.