Motor overloads occur when motors are drawing too much current. The main issue with excess current is that it creates heat which degrades the insulation surrounding the conductors that creates stator magnetic field.
This webinar will briefly discuss the various technologies traditionally used to determine the condition of the electric motors that drive these machines that produce many of the products and services required in today’s world.
Motor windings are conductive wires wrapped around a magnetic core; they provide a path for current to flow to create then magnetic field to spin the rotor. Like any other part of the motor, the winding can fail.
Motor acceptance testing is a critical part of many preventive maintenance programs and can be key to catching electrical problems before they cause considerable downtime.
Professionals in the industries of manufacturing, power generation and water rely on electric motors to complete their objectives. To remain efficient, it is essential that motor-based systems stay in peak operating condition.
Electrical Insulation is used to direct current through a desired path and prevent it from flowing where it is not desired. Proper electrical insulation is critical to an electric motor’s performance and longevity.
This webinar will present the analysis process accompanied by the description of the electrical and mechanical theories and forces that explain “Why machinery vibration wasn’t able to measure this condition”.
A conveyor motor was tested during an annual inspection that operated in the part transfer line. Annual testing for the plant was conducted during a scheduled shut down. Using the automated
routes mode of the & MCA™ Software.
By using this site you agree to our use of cookies. You are free to manage this via your browser setting at any time. To learn more about how we use the cookies please see our cookies policy.