Shaded pole motor lamination is a magnetic lamination component used in an electric motor. Shaded pole motor is a common type of AC motor, which is mainly used in household appliances or industrial equipment in the heat dissipation aspects.
Shaded pole motor lamination is usually made of silicon steel sheet, which is made by cutting, laminating and processing process. Its main role is to provide a magnetic flux path in the electromagnetic induction coil, so that the motor can rotate and drive the movement of the load. The performance of the shaded pole motor lamination directly affects the speed, torque and efficiency of the motor.

Universal lamination is an important part of the universal DC motor. It is composed of many stacked sheets of silicon steel that can reduce the magnetic resistance of the lamination and improve the efficiency of the motor.
In the universal DC motor, the lamination is mainly used to generate a magnetic field, which is generated when the armature current passes through the lamination. When the armature current passes through the lamination, a magnetic flux will be generated, which cuts the armature conductor, thus creating an electromotive force that pushes the motor to rotate.
In universal motors, the design and manufacture of the lamination is critical because it directly affects the efficiency and performance of the motor. The quality and manufacturing process of the lamination should be carefully designed and controlled to ensure the reliability and stability of the motor.

The magnet motor of motorcycle usually contains an lamination, it is a lamination with a coil used to generate magnetic fields and current. The lamination is an important part of the motor, for it provides a magnetic flux path that allows the magnetic field to flow through the coil and the rotor. This magnetic field will generate a torque, allowing the motor to drive the motorcycle.
The lamination is usually made of silicon steel sheets with high resistivity and low magnetic conductivity, which minimizes the eddy currents generated by the lamination in the magnetic field. The shape and size of the lamination vary according to the motor design and power requirements, and different shapes and sizes can affect the efficiency and performance of the motor.

Chain winding lamination is a form of lamination structure. It is a straight bar from the progressive die, premolded through the winding equipment, and complete the final lamination by a few plastic tooling, which usually used for battery car, household washing machine, etc.
The main advantages of chain winding lamination are high material utilization rate, high batch production efficiency and low cost, which is suitable for low price bulk goods; The disadvantage of chain winding lamination is that the product accuracy is relatively low, and multiple plastic processes are needed to ensure that the size and shape of the winding meet the design requirements. Lamination is generally used in low-end products.

The lamination of automobile new energy motor is generally made of special grade electrical steel material. This material has high saturated magnetic sensing strength and low hysteresis loss, giving it excellent magnetic performance and mechanical strength in motor applications.
In order to further improve the efficiency and performance of the motor, some new energy vehicle motors use a loose plate lamination, this structure can reduce the magnetic flux loss and mechanical loss in the lamination and improve the efficiency and dynamic performance of the motor, which achieves light weight by reducing the size of lamination. The lamination of the automobile motor is used to reduce the weight of the vehicle and improve the energy efficiency. At the same time, the recycling and reuse of lamination have also become an important factor taken into consideration in the design of automobile new energy motors.

Micromotor rotor lamination generally uses the electrical steel material, such as silicon steel sheet, which can provide high magnetic flux density and low iron loss in micromotors, resulting in efficient power conversion.
There are different designs of the structure of micromotor rotor lamination according to different application requirements, which generally including monopole and bipolar structures. The monopole lamination consists of a magnetic pole and several iron chips, which is suitable for high-speed applications. And the bipolar lamination consists of two magnetic poles and multiple iron chips, which is suitable for low speed applications.
In the manufacture of the micromotor rotor lamination, the machining accuracy and surface finish of the lamination also need to be considered to ensure the smooth operation of the rotor and the efficient operation of the motor. In addition, in order to improve the performance of the lamination, an optimized design is also needed, such as stacking structure, processing groove shape, to improve the magnetic flux density of the lamination and reduce the iron loss.

The fan outer rotor lamination is usually made of materials such as silicon steel sheet and cast aluminum rotor. These materials have high magnetic conductivity, low hysteresis loss and good mechanical properties, which are suitable for the manufacture of efficient fan outer rotor lamination.
The structure form of the fan outer rotor lamination can be designed differently according to different fan types and application requirements. For example, some low noise and low vibration fan outer rotors adopt a double lamination structure, which combines two lamination chips and connects them together by bonding or bolts, so as to reduce the gap in the lamination and improve the flow efficiency of magnetic flux.
In the manufacturing of the fan outer rotor lamination, the processing accuracy and surface finish of the lamination should also be taken into account to ensure the smooth and efficient operation of the fan. In addition, in order to improve the performance of the lamination, an optimized design is also needed, such as stacking structure, processing groove shape, to improve the magnetic flux density of the lamination and reduce the iron loss.

Chain winding lamination is expanded by the circular stator lamination to be straight, with a long strip shape. This structure is usually used in a large amount of fan motor, air conditioning motor, etc.
The chain winding lamination adopts technics of silicon steel cutting, stacking and winding, with high efficiency and high cost rate, but the lamination accuracy is lower than the pure round processing.
In order to further improve the performance of the chain winding lamination, various optimization design methods of segmented structure and asymmetric structure can also be adopted to reduce the hysteresis loss and iron loss in the lamination.

The DC motor rotor lamination refers to the lamination part of the DC motor rotor used to transmit magnetic force and current. The lamination is usually made of silicon sheet steel materials with high magnetic conductivity and low iron loss.
The shape of the DC motor rotor lamination is generally cylindrical and composed of many round lamination chips. These lamination chips are separated by insulating material to avoid short circuit of current. The shape and size of the DC motor rotor lamination can be designed and optimized according to the specific motor requirements.
The rotor lamination of the DC motor is subjected to a strong rotating magnetic field and current impact when the motor is running, so it needs sufficient strength and stability. In order to improve the performance of the lamination, the stacked structure is often used, in which multiple lamination chips are superimposed together, and the surface of the lamination chip is specially cut and processed to reduce the hysteresis loss and iron loss. In addition, further optimization design can be adopted by processing groove shape and oxidation.

T-block lamination is decomposed from ordinary round stator lamination into single tooth block lamination. The shape is similar to the letter T, so the popular name is T-block lamination.
T-block lamination is decomposed from ordinary round stator lamination into single tooth block lamination. The shape is similar to the letter T, so the popular name is T-block lamination.

High outturn percentage: T-block lamination has a high outturn percentage, reducing the cost of core, improving the market competitiveness;
High wiring efficiency: It is easy to scratch the enameled wire when winding if the groove is small. T-block lamination can avoid this situation and improve the winding efficiency;
High stability: The material and structure of T-block lamination have been designed and processed accurately, so it has good stability and reliability.

Stepper motor lamination refers to the magnetic lamination components used for the stepper motor. Stepper motor is a commonly used precision motor, which can achieve precise position control and motion control, so it is widely used in many fields like robots, CNC machine tools, printing machinery, medical equipment, stage lighting equipment and so on.
Stepper motor lamination is usually composed of magnetic materials such as silicon steel sheet, ferrite, which is made by cutting, lamination and processing process. Its main role is to provide flux paths in the electromagnetic induction coil, thus allowing the motor to precisely rotate and stop. The performance of the lamination directly affects the speed, torque, positioning accuracy and noise of the motor.
Different types of stepper motors require lamination of different shapes and sizes. There are many types including two phases, three phases, four phases and so on, and its shapes and structures are also different.

U-type lamination and mountain-type lamination are two common motor lamination shapes.
U-type lamination is a U-shaped section lamination that is usually used for single-phase motor and two-phase stepper motor. It is simple in structure, easy to process and assemble, and therefore low in cost.
Mountain-type lamination is a mountain-shaped section lamination which is usually used for three-phase motor and servo motor. Its structure is more complex, but it has better magnetic circuit characteristics, which can improve the power and efficiency of the motor.

Refrigerator/air conditioning compressor lamination refers to the magnetic lamination components used in the refrigerator and air conditioning compressor. Refrigerator and air conditioning compressor are commonly used compressors in household appliances, which is mainly used to compress refrigerant, so as to achieve cooling and refrigeration functions.
Refrigerator and air conditioning compressor lamination is usually composed of magnetic materials such as silicon steel sheet, ferrite, which is made by cutting, lamination and processing process. Its main role is to provide a magnetic flux path in the electromagnetic induction coil, so that the motor can realize the process of compression and release of refrigerant. The performance of the compressor lamination directly affects the speed, torque, refrigeration efficiency and noise of the motor.
The shape and size of the refrigerator and air conditioning compressor lamination are determined by the specific compressor type and compression ratio. The compressor lamination adopts a cylindrical shape with smaller diameter and longer length to accommodate the shape and size limitations of the compressor.

Window channeling motor lamination refers to the magnetic lamination components used in the window channeling motor. Window channeling motor is a kind of electric control equipment commonly used in curtain, rolling door and other home and commercial places, which mainly used for rolling up and unfolding of the curtain.
Window channeling motor lamination is usually made of silicon steel sheets, which is made by cutting, laminating and processing processes. Its main role is to provide a magnetic flux path in the electromagnetic induction coil, so that the motor can rotate and drive the movement of the shutter. The performance of the lamination of the window channeling string motor directly affects the speed, torque and noise of the motor.
The shape and size of the window channeling string motor lamination are determined by the specific motor type and power. The lamination of the window channeling string motor adopts a cylindrical shape with smaller diameter and longer length to accommodate the shape and size limitations of the motor.