ZKLF3080-2RS / P4 Axial Thrust Angular Contact Screw Ball Bearings
Contact Person : Dave-Lee
Phone Number : +86 13213639372
WhatsApp : +8613213639372
|Minimum Order Quantity :||1 PCS||Price :||1-1000USD|
|Packaging Details :||Single box||Delivery Time :||35days|
|Payment Terms :||L/C, D/A, D/P, T/T, Western Union, MoneyGram||Supply Ability :||1000PCS/Week|
|Place of Origin:||Luoyang||Brand Name:||MONTON|
Ultra High-Speed Angular Contact Ball Bearings
|Bearing Numbers||Boundary Dimensions (mm)||Basic Load Ratings (kN)||Permissible Axial
Load (1) (kN)
|Effective Load Center (mm)
|Limiting Speeds (2) (min–1)||Mass (kg)|
High-speed angular contact ball bearing using the new cage, which can be applied to the high speed series of ultra-high speed angular contact bearings for the main spindle of machine tools.
The new bearing meets the increasing demand for higher accuracy, higher speed rotation and design for the environment of bearings for the main spindle of machine tools, thereby helping to improve their productivity and environmental friendliness.
In terms of running accuracy, the demand to reduce RRO (repeatable runout) and NRRO*(non-repeatable runout) in particular is growing stronger. At the same time, there is strong demand for higher speeds and lower heat generation.
had already introduced the ROBUST series of angular contact ball bearings, which are superior to standard bearings for their high speed, low heat generation, and high rigidity. Now, however, has successfully developed its new cage SURSAVE for use with the ROUBUST series, reduced high-speed NRRO by half and reduced heat generation by 20%, thereby achieving high performance.
Reducing NRRO of the main spindle of machine tools improves the process surface quality, and reduced heat generation helps suppress thermal displacement, thereby improving processing accuracy. In particular, this new product is very beneficial to the surface quality of dies and gears processed by machine tools. In addition, these higher levels of performance improve the overall efficiency of machining.