Recommendation for Magnet Selection

 

1. Project Assessment

Begin by clarifying the application requirements:

 Application Scenario: Identify the purpose (e.g., industrial machinery, consumer electronics, medical devices).

 Force Requirements: Determine the necessary magnetic strength (e.g., high-precision motors require strong magnets like NdFeB)

 Temperature Range: Select materials based on operating temperatures. For example:

 N-series NdFeB: Suitable for 80°C.

 H/SH/UH/AH-series NdFeB: Higher temperature resistance (up to 230°C)

 Environmental Conditions: Consider corrosion risks (e.g., NdFeB requires nickel or epoxy coatings for humidity resistance)

2. Magnet Material Selection

Compare key magnetic materials (weakest to strongest):

1. Rubber Magnets: Low cost, flexible (ideal for signage, calendars, crafts)

2. Ferrite Magnets: Affordable, widely used in motors and speakers

3. AlNiCo Magnets: High-temperature tolerance (~500°C), stainless appearance (suitable for instruments)

4. Samarium Cobalt (SmCo): Heat-resistant (150300°C), brittle but durable in harsh environments

5. Neodymium (NdFeB): Highest magnetic strength, cost-effective, but prone to oxidation (requires coatings)

3. Supplier Communication Strategy

When contacting clients (e.g., manufacturers or distributors):

 Key Questions to Ask:

 Do you provide customized shapes (e.g., discs, rings, blocks)?

 What certifications do your products hold (e.g., ISO, RoHS)?

 Can you share test reports for magnetic performance and durability?

 Sample Request: Request samples to verify quality and compatibility with your application.

 Cost and Lead Time: Compare pricing and delivery timelines across suppliers.