Address: Qinxiang Village, Lijia Town, Wujin, Changzhou, Jiangsu, China (Mainland) Zip: 213176
Phone: +86-519-6234618
Pressing Part
Punching parts are used in electroacoustic products. We can supply different specifications of punching parts as per customers` requests. You are welcomed to contact us for more information.
The most commonly produced material is neodymium-iron-boron (NdFeB). This group of magnetic materials provides the highest available magnetic energies of any material. NdFeB magnets allow small shapes
The most commonly produced material is neodymium-iron-boron (NdFeB). This group of magnetic materials provides the highest available magnetic energies of any material. NdFeB magnets allow small shapes
The most commonly produced material is neodymium-iron-boron (NdFeB). This group of magnetic materials provides the highest available magnetic energies of any material. NdFeB magnets allow small shapes
Our ferrite arc magnets are also widely applicable to other DC motors, such as power antennas, fuel pump motors, rear windshield wipe motors, power curtains, blower motors for air-purifiers, power sea
Our ferrite arc magnets are also widely applicable to other DC motors, such as power antennas, fuel pump motors, rear windshield wipe motors, power curtains, blower motors for air-purifiers, power sea
Our ferrite arc magnets are also widely applicable to other DC motors, such as power antennas, fuel pump motors, rear windshield wipe motors, power curtains, blower motors for air-purifiers, power sea
Our ferrite arc magnets are also widely applicable to other DC motors, such as power antennas, fuel pump motors, rear windshield wipe motors, power curtains, blower motors for air-purifiers, power sea
The most commonly produced material is neodymium-iron-boron (NdFeB). This group of magnetic materials provides the highest available magnetic energies of any material. NdFeB magnets allow small shapes
The most commonly produced material is neodymium-iron-boron (NdFeB). This group of magnetic materials provides the highest available magnetic energies of any material. NdFeB magnets allow small shapes