M9910 Bearing Friction Torque Measuring Instrument Introduction: The M9910 bearing friction torque measuring instrument is used for precision measurement of the starting friction torque and dynamic friction torque of small and medium-sized deep groove ball bearings or angular contact bearings. It displays and records the measurement results in real time and saves them to the database for archiving. The friction torque of bearings is an important factor affecting the noise, vibration, and service life of bearings, and is an important indicator for measuring the operational performance of bearings. Accurate measurement of it can quantitatively evaluate the dynamic performance of bearings, provide basic data for optimizing bearing design and improving manufacturing processes, and provide scientific basis for bearing applications. characteristic: 1. It can measure both the starting friction torque and the dynamic friction torque 2. Closed loop control for precise loading of air flotation 3. Positive and negative rotation test 4. Computer automatic control and automatic measurement Technical parameters: Measurement items: starting friction torque and low-speed dynamic friction torque; Range of tested bearings: inner diameter ranging from 10mm to 60mm, outer diameter ranging from 15mm to 100mm Friction torque measurement range: 0-50mN. m; Friction torque measurement accuracy: ≤ ±1%FS Friction torque resolution: 0.01mN.m; Speed range: 1-10r/min; Speed stability: better than ± 1%; Axial load: 10-200N Loading accuracy: ≤ ±2N
Introduction: The M9910 bearing friction torque measuring instrument is used for precision measurement of the starting friction torque and dynamic friction torque of small and medium-sized deep groove ball bearings or angular contact bearings. It displays and records the measurement results in real time and saves them to the database for archiving. The friction torque of bearings is an important factor affecting the noise, vibration, and service life of bearings, and is an important indicator for measuring the operational performance of bearings. Accurate measurement of it can quantitatively evaluate the dynamic performance of bearings, provide basic data for optimizing bearing design and improving manufacturing processes, and provide scientific basis for bearing applications.
