Name: 16x25 cooler pump magnet
Uploaded: 2023-05-16T09:30:01+08:00
Description: 16X25 Cooler pump magnet

Product Attributes
Supply Ability & Additional Information
Packaging & Delivery
Other information

Product Attributes

Model No.: 10.5*16mm

Brand: YB

Place Of Origin: China

Species: Permanent

Composition: Rare Earth Magnet, Ndfeb Magnet, Ferrite Magnet, Alnico Magnet, Neodymium Magnet, Rubber Magnet, Plastic Magnet

Shape: Bar, Stick, Strip, Cup Shape, Block, Coil, Ball, Pot / Cup Shape, Sheet

Application: Moto Magnet

Tolerance: ±1%

Processing Service: Bending, Welding, Decoiling, Cutting, Punching, Moulding

Product Name: Cooler pump magnet

Material Grade: Y30,Y30BH

Color: Original Color

Size: 16*25,12*18,19*30,10.5*16mm

Brand: YB

Quality Certificates: CE,ROHS,MSDS

Certificates: ISO9001

Delivery Time: 7-15 days

Supply Ability & Additional Information

Packaging: carton package and then packed in pallets

Productivity: 3000000pcs per month

Transportation: Ocean,Land,Air,Express,Others

Place of Origin: China

Supply Ability: 3000000pcs per month

Certificate: ISO9001

HS Code: 8505190090

Port: Guangzhou,Shenzhen,Ningbo

Payment Type: T/T,Others

Incoterm: FOB,DDU,CFR,Express Delivery,CIF,EXW,DDP

Packaging & Delivery

Selling Units:

Others

Package Type:

carton package and then packed in pallets

Picture Example:

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16x25 cooler pump magnet

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ferrite rotor-white blade

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-ferrite rotor 16*25

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Ferrite magnets, also known as ceramic magnets, are made of iron oxide and strontium or barium carbonate. They are relatively inexpensive and have a low magnetic strength, but they are resistant to corrosion and can withstand high temperatures. They are commonly used in motors, speakers, and refrigerator magnets.

production process of injection moulded Pump Magnet

1. Designing the mold: The first step is to design the mold that will be used to create the pump magnet. The design will typically include the shape, size, and features of the magnet, as well as any necessary cavities or channels for the injection molding process.

2. Preparing the materials: The materials used for injection molding typically include thermoplastics such as nylon, polycarbonate, or polypropylene. These materials are melted down and then injected into the mold.

3. Injection molding: The next step is to inject the melted plastic into the mold. This is typically done using a machine that applies pressure to the plastic and forces it into the mold.

4. Cooling: Once the plastic has been injected into the mold, it needs to cool and solidify. This is typically done by cooling the mold with water or air.

5. Ejecting the magnet: Once the plastic has cooled and solidified, the mold is opened and the pump magnet is ejected. This is typically done using a mechanical ejector system.

6. Finishing: The pump magnet may then undergo additional finishing processes, such as trimming or polishing, to achieve the desired final shape and surface finish.

The different between Anisotropic Ferrite Magnet and Neodymium Magnet?

Anisotropic Ferrite Magnet and Neodymium Magnet are two different types of permanent magnets with distinct characteristics. Here are the main differences between them:

1. Composition: Anisotropic Ferrite Magnets are made from a combination of iron oxide and barium/strontium carbonate, while Neodymium Magnets are composed of neodymium, iron, and boron (Nd2Fe14B).

2. Magnetic Strength: Neodymium Magnets are significantly stronger than Anisotropic Ferrite Magnets. Neodymium Magnets have a high magnetic energy product, allowing them to generate stronger magnetic fields.

3. Magnetic Properties: Anisotropic Ferrite Magnets are magnetized in the direction of their manufacturing, meaning they have a preferred direction of magnetization. On the other hand, Neodymium Magnets are isotropic, meaning they can be magnetized in any direction.

4. Cost: Anisotropic Ferrite Magnets are generally less expensive compared to Neodymium Magnets. Neodymium Magnets require rare-earth elements, making them more costly to produce.

5. Temperature Resistance: Anisotropic Ferrite Magnets have better temperature resistance compared to Neodymium Magnets. Neodymium Magnets can lose their magnetic properties at high temperatures, whereas Anisotropic Ferrite Magnets can withstand higher temperatures without significant loss of magnetism.

6. Applications: Anisotropic Ferrite Magnets are commonly used in applications where high magnetic strength is not required, such as speakers, motors, and magnetic separators. Neodymium Magnets are used in applications that demand strong magnetic fields, such as headphones, hard disk drives, and electric motors.

Overall, the main differences between Anisotropic Ferrite Magnets and Neodymium Magnets lie in their magnetic strength, composition, magnetization properties, cost, temperature resistance, and applications.

The material grade for ferrite Magnet Rotor

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The available sizes for Anisotropic Ferrite Magnet

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The artwork for Ferrite Magnet Rotor

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Ferrite Magnet Rotor made of Anisotropic Ferrite Magnet and Impeller

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Electric kilns are essential equipment for pottery and ceramics artists who need to fire their work at high temperatures. These kilns are powered by electricity and can reach temperatures of up to 2300°F. They come in different sizes and shapes, from small tabletop models to large industrial kilns.

Electric kilns consist of several components, including the heating elements, the temperature controller, the thermocouple, and the kiln shell. The heating elements are responsible for generating heat and are made of high-temperature resistance wires. The temperature controller regulates the temperature inside the kiln and ensures that it stays within the desired range. The thermocouple is a sensor that measures the temperature and sends signals to the temperature controller. The kiln shell is made of heat-resistant materials and provides insulation to maintain the temperature inside the kiln.

Electric kilns are versatile and can be used for various types of firing, including bisque firing, glaze firing, and low-temperature firing. They are also easy to use and require minimal maintenance. However, they can be expensive to purchase and operate, and they require a dedicated electrical circuit to function properly.

Overall, electric kilns are an essential tool for pottery and ceramics artists who want to create high-quality pieces. With the right equipment and techniques, artists can achieve beautiful and unique results that are sure to impress.

Indian popular cooler pump magnet 16*25mm