Selecting the appropriate base material for solid-lubricating bearings—whether bronze, steel, or ceramic—requires careful consideration of several performance f...
Effective predictive maintenance and condition monitoring for graphite sliding bearings in critical machinery are essential for ensuring optimal performance, mi...
Optimizing the geometry and profile of wear-resistant guide rails is crucial for enhancing their load distribution, wear resistance, and overall performance in ...
Graphite sliding bearings offer several environmental benefits, particularly in terms of energy efficiency. These advantages come from their unique material pro...
Self-lubricating bearings, also known as graphite copper sleeves or oil-free bearings, are a special type of sliding bearings. They are based on metal materials...
Graphite-inlaid copper alloy guide rails (such as copper-based inlaid graphite self-lubricating guide rails, high-strength brass inlaid graphite copper guide ra...
Graphite copper sleeves are sliding bearings with graphite embedded as lubricant on a copper alloy matrix. They have self-lubricating properties and do not requ...
Graphite copper sleeves generally have high temperature resistance and a wide temperature range. Specifically, graphite copper sleeves can remain stable in high...
Improving load distribution and wear resistance in guide rails used in multi-axis or multi-directional systems requires a thoughtful approach that considers the...
In industrial production, especially under high-temperature and harsh conditions, traditional metal bearings often struggle to meet the demand for long-term sta...
In the vast realm of the chemical industry, the safe and stable operation of equipment is of paramount importance. Faced with complex and ever-changing chemical...
In the field of underwater equipment, finding a bearing material that can operate stably for long periods while possessing good lubrication performance and corr...
We offer a wide range of oil-free bearing solutions covering all series on the market.