Motor Lamination Stacks

Fixtures are created for the stacks.

Motor lamination stacks.

These compact lamination stacks also exhibit excellent stacking behavior and a favorable insulating effect that results in electrical short circuit protection. Motor output heat rise weight and cost are only a few of the characteristics which are profoundly influenced by the selection of core material. Electric motor lamination stacks over 30 million press strokes per day allows output of over 300 tons finished magnetic circuits laminations each day. Few decisions in the design of an electric motor are as fundamental or have as far reaching consequences as the selection of the material to be used in the rotor or stator motor laminations which become lamination stacks.

E motor lamination and e core stacks feintool leads the way in the production of high quality electro motor lamination and electro core stacks. Each stack is aligned using precision gage pins that are accurate to the 0001 once stack height is achieved laminations may be bonded or welded depending on your application. These laminations are insulated from each other typically by a lacquer coating to prevent the eddy currents from jumping from lamination to lamination. Laminations are the steel portions of the stator and rotor consisting of thin lamination sheets stacked together.

Laminations sheets are used instead of a solid pice to reduce eddy current losses. High speed presses ranging from 100 tons to 800 tons. Once cold rolled and ensured with a special grain. Our viscoelastic backlack effectively dampens the vibrations in laminations.

One component for laminated steel sheets is silicon. These laminations can be stacked loose welded or bonded together depending on your application. With quality and expertise you can depend on for your electric motor components feintool will put your production in the fast lane. This effect is utilized in selected electric machines to minimize sound levels.

Silicon protects the core of a generator s or motor s stator as well as the transformer.