ample-chip ample-chip
RFQ
BOM

Magnets - Multi Purpose

Image Part Number Description / PDF Quantity Rfq
STE-1042609RFRC

STE-1042609RFRC

Steute

MAGNET 0.886"DIA X 0.335"H ROUND

1

Magnets - Multi Purpose

1. Overview

Magnets - Multi Purpose refer to a category of magnetic components designed for versatile applications beyond basic attraction/repulsion functions. These magnets integrate advanced materials and engineering to deliver precise magnetic fields, durability, and adaptability in modern technological systems. They play a critical role in automation, electronics, energy systems, and medical devices by enabling motion control, sensing, energy conversion, and data storage.

2. Main Types and Functional Classification

TypeFunctional CharacteristicsApplication Examples
Permanent MagnetsRetain magnetism without external power; high energy densityElectric motors, generators, MRI machines
ElectromagnetsMagnetic field generated by electric current; adjustable strengthRelays, magnetic separators, particle accelerators
Rare Earth MagnetsExceptional strength-to-size ratio; temperature-resistantWind turbines, hard drives, sensors
Flexible MagnetsElastomer-based materials with customizable shapesSealing systems, automotive sensors, consumer electronics

3. Structure and Composition

Typical configurations include:

  • Material Core: Rare earth alloys (NdFeB, SmCo), ferrites, or electromagnet coils
  • Coatings: Nickel-copper-nickel plating, epoxy resin, or polymer encapsulation for corrosion resistance
  • Mechanical Housing: Aluminum or steel casings for structural integrity
  • Mounting Features: Integrated threads, adhesive backing, or customized geometries

4. Key Technical Specifications

ParameterDescriptionImportance
Magnetic Flux DensityMeasured in Tesla (T); determines field strengthImpacts actuation force and sensor sensitivity
CoercivityResistance to demagnetization (kA/m)Dictates operational stability in varying conditions
Max Operating TemperatureThermal limit before performance degradationCritical for high-temperature environments
Dimensional TolerancePrecision in manufacturing ( 0.05mm typical)Affects integration with mechanical systems

5. Application Fields

  • Industrial Automation: Proximity sensors, conveyor belt separators
  • Consumer Electronics: Smartphone speakers, wireless charging systems
  • Medical Devices: MRI scanners, implantable drug delivery systems
  • Renewable Energy: Direct-drive wind turbine generators
  • Transportation: EV traction motors, maglev train systems

6. Leading Manufacturers and Products

ManufacturerRepresentative ProductKey Features
Arnold Magnetic TechnologiesVACODYM SeriesHigh-energy rare earth magnets for aerospace applications
Eclipse MagneticsPrecision Electromagnet LineCustomizable field control for industrial sorting systems
Hitachi MetalsNeomax NdFeB Magnets45 MGOe energy product with thermal stability up to 200 C

7. Selection Guidelines

  1. Determine required magnetic field strength and spatial constraints
  2. Evaluate environmental conditions (temperature, humidity, vibration)
  3. Assess cost-performance balance: Rare earth magnets offer superior performance but higher cost
  4. Verify compliance with RoHS/REACH standards for material safety

8. Industry Trends

Key developments include:

  • Advancements in nanocomposite magnetic materials
  • Miniaturization for IoT sensor integration
  • Recycling technologies for rare earth elements
  • Smart magnets with embedded sensors and wireless communication

Case Study: Tesla's Model 3 permanent magnet motor achieved 97% efficiency using NdFeB magnets with proprietary corrosion-resistant coatings, demonstrating the critical role of advanced magnetic materials in EV technology.

RFQ BOM Call Skype Email
Top