lamination armature

简明释义

叠片转子

英英释义

例句

1.The design of the lamination armature can affect the overall weight of the motor.

层压电枢的设计会影响电机的整体重量。

2.To enhance durability, we selected high-quality materials for the lamination armature.

为了增强耐用性，我们为层压电枢选择了高质量的材料。

3.The lamination armature plays a crucial role in the performance of electric generators.

层压电枢在发电机的性能中起着至关重要的作用。

4.The motor's efficiency greatly improved after we replaced the old lamination armature with a new one.

更换了新的层压电枢后，电机的效率大大提高。

5.Engineers often focus on optimizing the design of the lamination armature to reduce energy losses.

工程师们通常专注于优化层压电枢的设计，以减少能量损耗。

作文

In the world of electrical engineering and machinery, the term lamination armature plays a crucial role in the design and functionality of electric motors and generators. An armature is a key component in these devices, serving as the part that carries current and interacts with the magnetic field to produce motion or generate electricity. The process of lamination involves stacking thin sheets of magnetic material to form the armature, which significantly enhances its performance and efficiency.The primary purpose of using a lamination armature is to reduce energy losses due to eddy currents. Eddy currents are loops of electrical current that can be induced within conductors by a changing magnetic field, which can lead to wasted energy in the form of heat. By laminating the armature, engineers can minimize the cross-sectional area available for these currents to flow, thus reducing their magnitude and improving the overall efficiency of the device.Moreover, the use of laminated materials allows for better magnetic properties. When designing motors and generators, it is essential to maximize the magnetic flux density within the armature. Laminated cores can achieve this by providing a path of low reluctance for magnetic lines of force, leading to improved performance. This is particularly important in applications where high speeds and efficiency are required, such as in electric vehicles and industrial machinery.Additionally, the lamination armature contributes to the reduction of noise and vibration in electric machines. Traditional solid-core designs can produce significant mechanical noise due to the vibrations caused by the interaction of the armature with the magnetic fields. Laminated designs tend to dampen these vibrations, resulting in quieter operation. This characteristic is particularly desirable in applications where noise reduction is critical, such as in household appliances or public transportation systems.The manufacturing process of a lamination armature involves precise engineering and careful selection of materials. Typically, silicon steel is used for its excellent magnetic properties and low electrical conductivity, which further aids in reducing eddy currents. The sheets are coated with an insulating layer to prevent unwanted electrical connections between them. After stacking and bonding these sheets together, the armature is then machined to fit into the rotor or stator assembly of the motor or generator.In conclusion, the concept of lamination armature is fundamental in the design of efficient electrical machines. By understanding the advantages of laminated construction, engineers can create devices that not only perform better but also operate more quietly and with less energy loss. As technology continues to advance, the importance of optimizing components like the lamination armature will only grow, leading to more sustainable and efficient energy solutions for the future.

在电气工程和机械领域，短语层压电枢在电动机和发电机的设计与功能中扮演着关键角色。电枢是这些设备中的一个关键组件，负责携带电流并与磁场相互作用以产生运动或发电。层压的过程涉及将薄的磁性材料片叠加在一起，以形成电枢，这显著提高了其性能和效率。使用层压电枢的主要目的是减少由于涡流造成的能量损失。涡流是在导体内由变化的磁场诱导的电流环，这会导致以热的形式浪费能量。通过对电枢进行层压，工程师可以最小化可供这些电流流动的横截面积，从而减少其幅度，提高设备的整体效率。此外，使用层压材料可以改善磁性特性。在设计电动机和发电机时，最大化电枢内的磁通密度至关重要。层压核心可以通过提供低阻抗的磁力线通路来实现这一点，从而提高性能。这在需要高速度和高效率的应用中尤为重要，例如电动车辆和工业机械。另外，层压电枢有助于减少电机中的噪音和振动。传统的实心核心设计可能会因为电枢与磁场相互作用而产生显著的机械噪音。层压设计往往可以减轻这些振动，从而实现更安静的运行。这种特性在噪音减少至关重要的应用中尤其受欢迎，例如家用电器或公共交通系统。制造层压电枢的过程涉及精确的工程设计和材料的仔细选择。通常使用硅钢，因为它具有优良的磁性和低电导率，进一步有助于减少涡流。这些薄片被涂上绝缘层，以防止它们之间的不必要电连接。在将这些薄片叠加和粘合后，电枢随后被加工以适应电动机或发电机的转子或定子组件。总之，层压电枢的概念在高效电气机器的设计中至关重要。通过理解层压结构的优势，工程师可以创造出不仅性能更好，而且运行更安静、能量损失更少的设备。随着技术的不断进步，优化像层压电枢这样的组件的重要性只会增加，从而为未来创造出更可持续和高效的能源解决方案。