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电工钢硅钢片:表 3 普通型 A、河南三门峡同城应力退火型 AR、河南三门峡同城型 AH 产品磁性能和技术特性(续)类型 牌号公称厚度mm 比总损耗名义值P1.5/50 W/kg 比总损耗P1.5/50 W/kg小磁极化强度J5000a T比总损耗各向异性T1.5/50b %小叠装系数小弯曲次数约定密度kg/dm3 应力退火型c B35AR300 0.35 3.00 2.98 1.73 ±10 0.95 10 7.80B50AR3000.503.00 2.98 1.72 ±120.9710 7.75B50AR350 3.50 3.48 1.74 ±10 10 7.80B50AR500 5.00 4.90 1.72 ±10 10 7.85B50AR600 6.00 5.50 1.72 ±8 10 7.85型B35AH2300.352.30 2.28 1.66 ±170.952 7.65B35AH250 2.50 2.45 1.67 ±17 2 7.65B35AH300 3.00 2.80 1.69 ±14 5 7.70B50AH3000.503.00 2.90 1.68 ±140.975 7.65B50AH350 3.50 3.00 1.71 ±14 5 7.70B50AH470 4.70 3.50 1.72 ±12 10 7.75B50AH600 6.00 4.00 1.72 ±10 10 7.75a频率在 50Hz 的磁极化强度;b供方如能保证,可不提供。需方如有特殊要求,应在订货时协商;c应力退火型产品的磁性能是试样在 750℃±10℃下,经 2 小时应力退火后的测量值。
电工钢硅钢片硅钢是一种硅铁合金。用硅钢轧制的片材是电工领域中应用广的软磁材料,因而硅钢片又称电工钢片。硅钢片广泛用于电动机、发电机、变压器、扼流圈、电磁机构、继电器及测量仪表中电机工业大量使用厚度为0.35~0.50mm的硅钢片,用于:中型旋转机,压缩电机,通用马达,小型精密电机,电动汽车,压缩机,通用电机,电源变压器,精密变压器,节能电机,焊机变压器,稳压器,磁性密封器,加速器用电磁铁,汽车电机等;在电信高频技术中常用0.05~0.20mm的薄带钢片,以便更有效地降低涡流损耗。热轧硅钢片厚度为0.35~0.50mm,密度为7.55~7.70g/cm3,多用于大、中、小型交、直流电动机;冷轧无取向硅钢片厚度为0.35~0.50mm,密度为7.65~7.75g/cm3,多用于大型交流发电机、电动机,大、中、小型交、直流电动机;冷轧取向硅钢片厚度为0.23mm 0.27mm 0.3mm 0.35mm,密度为7.65g/cm3,多用于电力变压器、油浸式变压器,干式变压器,电抗器、磁放大器等;冷轧取向薄带厚度为0.05~0.20mm,多用于无线电高频变压器。
电工钢硅钢片电工钢钢板经冲片、河南三门峡同城剪切、河南三门峡附近弯曲会引入残余应力,导致磁性能劣化。应力退火(SRA)可以残余应力对磁畴移动与转动的阻碍作用,恢复电磁性能。E.2 在钢板或铁心叠片的状态下进行应力退火的注意事项如下。1)、河南三门峡附近避免氧化和渗碳为了防止氧化应力退火应该在保护气氛下进行,通常是 10%以下氢气(H2)和 90%以上氮气(N2)、河南三门峡附近100%氮气(N2)或者氨分解气氛的非爆炸性保护气氛,露点控制在 0℃以下。冲压加工过程引入的冲压油在退火前应完全去除,防止在退火中发生渗碳,劣化产品磁性。2)、河南三门峡附近退火温度及保持时间退火温度指材料温度,750℃为宜。为使得钢板或铁心叠片各部分退火均匀,需要调整温度与保持时间。温度太低不足以残余应力的影响,温度太高会破坏涂层绝缘性。3)、河南三门峡附近冷却时间应当避免急剧冷却使材料产生应力应变。冷却时间根据电工钢退火数量进行调整。对于退火小吨位数量时,可按每小时不超过 25℃ 的冷却速度冷却到 350℃,以避免冷却过程中产生应力应变。对于退火大吨位数量时,应采取更加缓慢的冷却速率,以期获得 效果。
鹿程国际贸易有限公司是一家专营(河南三门峡) 本地 河南三门峡硅钢的大型企业,可根据客户要求尺寸定做。公司以良好的信誉、优质的产品、雄厚的实力、低廉的价格享誉全国30多个省、市、自治区、直辖市及国外,产品深得用户依赖。
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电工钢硅钢片Electrical steel, also known as silicon steel sheet, is an indispensable metal material in the power, electronics, and military industries, and is also the largest functional material in production. It is mainly used as the iron core for various motors, generators, and transformers. Since it is a functional material, its performance testing also revolves around "function". These indicators are often mentioned in trade and processing processes, and a brief understanding can help everyone better carry out their work. The performance testing of electrical steel mainly includes the following aspects: magnetic inspection, stacking coefficient inspection, coating adhesion inspection, repeated bending inspection, size and shape surface inspection, and conventional mechanical property inspection. In addition to the types of products listed above, there are also some special purpose electrical steel plates, such as 0.15 and 0.20mm thick 3% Si cold-rolled non oriented silicon steel strips and 0.025, 0.05, and 0.1mm thick 3% Si cold-rolled oriented silicon steel strips, which are used as intermediate and intermediate grade High frequency motors and transformers, as well as pulse transformers, etc; 0.7mm thick 3% Si high-strength cold-rolled non oriented silicon steel plate for relays and power switches; High strength cold-rolled electrical steel plate for new high-speed motor rotors; Low carbon electrical steel hot-rolled thick and cold-rolled plates for magnetic shielding and high-energy accelerator electromagnets such as medical magnetic resonance tomography scanners; 4.5% to 6.5% Si high silicon steel plates for high-frequency motors, transformers, and magnetic shielding.
Generally, motors, transformers, and other electrical components are required to have high efficiency, low power consumption, small size, and light weight. Electrical steel plates are usually guaranteed to have magnetic properties based on core loss and magnetic induction strength. Magnetic induction strength is the number of magnetic lines passing through a unit cross-sectional area of the iron core, also known as magnetic flux density. It represents the material‘s magnetization ability, measured in T. The magnetic induction strength of electrical steel plates is high, and the excitation current (also known as no-load current) of the iron core is reduced. Copper and iron losses are also reduced, which can save electrical energy. When the power of the motor and transformer remains constant, the magnetic induction intensity is high, and the design Bm can be increased. The cross-sectional area of the iron core can be reduced, which reduces the volume and weight of the iron core, and saves the amount of electrical steel plates, wires, insulation materials, and structural materials used. This can reduce the total loss and manufacturing cost of the motor and transformer, and is beneficial for the manufacturing, installation, and transportation of large transformers and motors. The main requirements for the performance of silicon steel are:
1. Low iron loss is the most important indicator of the quality of silicon steel sheets. Various countries classify grades based on iron loss values, with the lower the iron loss, the higher the grade.
2. Under strong magnetic fields, the magnetic induction intensity (magnetic induction) is high, which reduces the volume and weight of the iron core of the motor and transformer, saving silicon steel sheets, copper wires, and insulation materials.
3. The surface is smooth, flat, and the thickness is uniform, which can improve the filling coefficient of the iron core.
4. Good lamination performance is more important for manufacturing micro and small electric motors.
5. The adhesion and weldability of the surface insulation film are good, which can prevent corrosion and improve the punching performan
