Product Description:
Characteristics: 1. Suitable for mass production; each plate would only take 15 seconds. Producing 4 plates every minute, which ability to handle big orders. 2. Saves labor by eliminating the hard work from hand pressing and arranging onto the plates. 3. Easy to operate, thus shorten the training time. 4. Easy to change the mold. 5. The mold can work for special products as well. 6. After the products have been formed they go directly onto the plates so there is no worry for products to change shape because of the movements. 7. Safe to operate.
Product Description:
Magnetic products are widely used in electronic products, motors, holders in stationary or in bags, or used as magnetic water, or as iron chip cleaners in the industry. Material: Ferrite magnets, Rare Earth magnets.
Product Description:
Magnetic products are widely used in electronic products, motors, holders in stationary or in bags, or used as magnetic water, or as iron chip cleaners in the industry. Material: Ferrite magnets, Rare Earth magnets.
Product Description:
The materials for both Isotropic Magnets and Anisotropic Magnets are Ferrite magnets. But the spread of the magnetic field is very different between Isotropic Magnets and Anisotropic Magnets. There is no magnetic field during pressing for Isotropic Magnets, so there will be more ways to magnetize after sintering than Anisotropic magnets are. Because Anisotropic magnets need pressing with magnetic field, the magnetic direction is fixed during pressing. There is one direction and one way to magnetize after sintering. So Anisotropic Magnets are stronger and more powerful.
Product Description:
The materials for both Isotropic Magnets and Anisotropic Magnets are Ferrite magnets. But the spread of the magnetic field is very different between Isotropic Magnets and Anisotropic Magnets. There is no magnetic field during pressing for Isotropic Magnets, so there will be more ways to magnetize after sintering than Anisotropic magnets are. Because Anisotropic magnets need pressing with magnetic field, the magnetic direction is fixed during pressing. There is one direction and one way to magnetize after sintering. So Anisotropic Magnets are stronger and more powerful.
Product Description:
Plastic Magnets produced by injecting have better crush-resistance, compressive strength and the best accuracy. If magnets are hard to be produced by pressing, or magnets are very thin, or magnets are easy to be crashed, then the way of plastic injection will be our best suggestion to solve such kinds of problems.
Product Description:
Rare Earth Magnets have the strongest energy. There are several different materials, including Neodymium Ferrite Boron Magnet, MQ Magnet, and SmCo5 magnet. Except SmCo5, they both need surface coating with zinc, nickel, or epoxy to avoid oxidizing or rusting. It is very helpful and useful to use Rare Earth Magnets to make products smaller and more efficiency.
Product Description:
Rare Earth Magnets have the strongest energy. There are several different materials, including Neodymium Ferrite Boron Magnet, MQ Magnet, and SmCo5 magnet. Except SmCo5, they both need surface coating with zinc, nickel, or epoxy to avoid oxidizing or rusting. It is very helpful and useful to use Rare Earth Magnets to make products smaller and more efficiency.
Product Description:
The materials for both Isotropic Magnets and Anisotropic Magnets are Ferrite magnets. But the spread of the magnetic field is very different between Isotropic Magnets and Anisotropic Magnets. There is no magnetic field during pressing for Isotropic Magnets, so there will be more ways to magnetize after sintering than Anisotropic magnets are. Because Anisotropic magnets need pressing with magnetic field, the magnetic direction is fixed during pressing. There is one direction and one way to magnetize after sintering. So Anisotropic Magnets are stronger and more powerful.
Your search for " " has found products.jpg)
.gif)
.gif)
.gif)
.gif)
.gif)
.gif)
.gif)
.gif)
.jpg)
