N42 vs N52 mágnes

N42 vs N52 mágnes: A végső összehasonlító útmutató

Neodymium magnets are distinguished by their potent magnetic strength and compact size. This guide compares the commonly used grades, N42 vs N52 magnet, helping you choose the right magnet based on performance, application environment, and safety considerations, ensuring optimal use of these formidable magnetic forces.

N42 vs N52 mágnes

Understanding Magnet Grading

Neodymium magnets are graded by letters and numbers like N42 and N52; “N” stands for Neodymium, and the following numbers indicate the magnet’s maximum energy product in Mega-Gauss Oersteds (MGOe). The higher the number, the stronger the magnetic field output per unit volume, meaning an N52 magnet is more powerful than an N42.

The grade number can be followed by additional letters such as H, SH, UH, and EH, which indicate the magnet’s temperature resistance. For example, an N42SH magnet can resist higher temperatures and is less likely to demagnetize than a standard N42. These temperature ratings are crucial for applications where magnets are exposed to varying degrees of heat.

N42 vs N52 Magnet: Magnetic Strength, Performance, and Physical Properties

Magnetic Strength and Performance

  • Magnetic Field: N52 has a stronger magnetic field with higher flux density, resulting in greater pull than N42.
  • Holding Power: N52 magnets can hold more weight with a higher maximum energy product.
  • Performance: N52 excels in applications needing small, strong magnets; N42 is more cost-effective for less demanding situations.

Fizikai tulajdonságok

  • Brittleness: Both grades are brittle, but N52 is more prone to damage if mishandled.
  • Temperature Sensitivity: Both have a max operating temp of ~80°C, but N52 can demagnetize at lower temps.
  • Cost and Manufacturing: N52 magnets are more expensive due to sophisticated production processes; N42 is more affordable with sufficient power.

N42 vs N52 Magnet Specs

AttribútumN42 Neodymium MagnetsN52 neodímium mágnesek
Magnetic Energy Density12.5 – 13 MGOeUp to 52 MGOe
Hőmérsékleti ellenállásLoses strength above ~80°CStable over a broader temperature range
Demagnetization ResistanceCoercivity of 10.8 – 12 kOeHigher resistance to demagnetization
Cost and AvailabilityMore affordable and widely availableMore expensive and less available

N42 and N52 neodymium magnets differ in magnetic strength, temperature resistance, demagnetization resistance, cost, and availability. N42 magnets, with a magnetic energy density of 12.5 to 13 MGOe, are less powerful, more sensitive to high temperatures over 80°C, and more prone to demagnetization, but they’re more affordable and readily available. N52 magnets provide magnetic energy up to 52 MGOe, making them stronger, more temperature stable, and resistant to demagnetization, yet they are costlier and harder to find. While N42 magnets are suitable for less demanding applications, N52 magnets are ideal when maximum magnetic performance is required.

N42 vs N52 Magnet Size

When comparing N42 and N52 neodymium magnets, size doesn’t equate to strength. N52 magnets boast a higher maximum energy product, offering the same or greater magnetic pull even when smaller than N42 magnets. For example, an N52 magnet with a diameter and thickness of 25.4 mm can offer a pulling force of about 35 kg. In comparison, an N42 magnet of equal dimensions only yields a pull force of 27 kg. This makes N52 magnets ideal for efficiency and strength in compact spaces.

Choosing Between N42 and N52

Depending on the application, if maximum strength is essential and budget allows, go for N52. For applications involving impacts, high temperatures, or limited budgets, N42 could be more suitable.

N42 vs N52 Magnet: Comparing Applications

Applications Best Suited for N42 Magnets

  • Consumer Electronics: Ideal for internal smartphone, tablet, and camera mechanisms.
  • Magnetic Closures: Perfect balance of strength and cost for clasps and packaging.
  • Crafts and DIY Projects: Adequate for homemade tool organizers and decorative magnets.
  • Office Products: Suited for whiteboard magnets and organizational tools.
  • Automotive Applications: Fits for non-critical sensors and latches in vehicles.

Applications Best Suited for N52 Magnets

  • High-Efficiency Motors: Enhances performance in drones and RC vehicles.
  • Medical Devices: Critical for strong magnetic fields in hand-held diagnostic equipment.
  • Magnetic Separators: Necessary for segregating ferrous particles in industrial settings.
  • Research and Development: Empowers scientific experimentation with strong magnetism.
  • Sound Equipment: Upgrades sound quality in high-end loudspeakers and audio gear.

Situations Where One Might Be Preferred Over the Other

  • Cost Sensitivity: Choose N42 for budget-friendly applications with sufficient magnetic strength.
  • Temperature Concerns: Opt for N42 if the environment experiences higher temperatures.
  • Durability Needs: N42 is less brittle and better for high-impact or rough handling situations.
  • Size Constraints: N52’s superior strength-to-size ratio is ideal for tight spaces or weight limits.

N42 vs N52 Magnet: Durability and Working Temperature

Durability Comparison

  • Corrosion Vulnerability: Both grades need protective plating to prevent corrosion.
  • Brittleness: Higher-grade N52 magnets are more brittle; N42 magnets are slightly more forgiving with rough handling.
  • Structural Integrity: N42 might be safer in structures that experience stress due to better brittleness resistance.

Working Temperature Considerations

N42 magnets are known for their balance among cost, strength, and performance under temperatures up to 80°C (176°F). However, specific grades within the N42 series, such as N42SH and N42UH, can withstand higher temperatures, reaching up to 150°C (302°F) and 180°C (356°F), respectively. These higher temperature grades are typically used in applications requiring high-temperature resistance, like brushless electric motors.

N52 magnets, while offering higher magnetic strength than N42 magnets, have a maximum operating temperature limit of 80°C (176°F). Exceeding this temperature can lead to irreversible demagnetization.

High-Temperature Variants

  • Special Grades: Options like N42SH or N52SH are designed to handle higher temperatures without significant loss in strength.


  • N42: Better for durability, temperature resistance, and applications with stress or flex.
  • N52: Chosen for unbeatable magnetic force, where handling and temperature are less concerned.

N42 vs N52 Magnet: Availability and Cost


  • N42 Magnets: Readily available; used in common applications; often found in larger stocks due to established production practices.
  • N52 Magnets: Available, but marginally less common; tailored for specialized high-strength needs; smaller inventory due to specific use and production costs.

N42 vs N52 Magnet Price

The price of neodymium magnets tends to escalate significantly with grades surpassing N42, and this price hike may not always align with the performance enhancement they offer. For instance, the N52 grade is about 20% more powerful than the N42 grade but can be twice the price. Therefore, choosing between N42 and N52 magnets depends on the application’s requirements and budget.

Pricing Differences

  • Material Costs: N52 magnets have higher rare-earth material density, making them pricier.
  • Manufacturing Complexity: Tighter production tolerances for N52 increase costs.
  • Supply and Demand: High demand and larger production volumes make N42 magnets more economical.
  • Market Forces: Raw materials availability and sector-specific demands can affect prices, potentially making N52 more costly.


N52 magnets are typically more expensive; consider if the higher cost aligns with the need for stronger magnetic performance or if N42 provides a more cost-effective alternative without significant performance trade-offs. Evaluate cost versus application needs before purchasing.

N42 vs N52 Magnet: Manufacturing Process

The grade of a neodymium magnet, such as N42 or N52, is determined by the magnetic material’s maximum energy product, measured in Mega-Gauss-Oersteds (MGOe). This grade indicates the strength of the magnetic field the magnet can produce. Here’s what goes into making different grades:

1. Material Composition: Minor variations in the proportions of neodymium, iron, boron, and any additives alter the magnetic properties. More neodymium can increase the strength of the magnet.

2. Microstructure Optimization: The physical and magnetic properties can be further fine-tuned during the milling and pressing phases by controlling the size and uniformity of the magnetic grains.

3. Processing Conditions: Variations in the sintering temperature, time, and cooling rate can affect the magnetic properties and create a stronger magnet.

4. Additives: Certain additives like dysprosium can improve the magnet’s temperature coefficient, increasing the magnet’s performance at higher temperatures.

Higher-grade magnets like N52 require more precise control over all these aspects to achieve stronger magnetic fields without sacrificing other properties. Producing higher grades is generally more complex and costly due to these factors, contributing to the price and performance differences between grades such as N42 and N52.

Factors for Choosing N42 vs N52 Magnets

  1. Magnetic Strength: N52 is for maximum strength applications; N42 is for adequately strong, cost-effective solutions.
  2. Size and Shape: Choose based on the physical constraints of the application.
  3. Environmental Exposure: Consider the need for protective coatings and durability against environmental stresses.
  4. Temperature Tolerance: Assess the operating temperature range; select higher temperature-rated options if needed.
  5. Budgetary Limits: Opt for N42 when the cost outweighs the need for the highest magnetic strength.
  6. Supply Availability: Check supplier stock and lead times.
  7. Mechanical Stress: N42 might be better for applications involving impacts or flexing.
  8. Weight Considerations: N52 magnets can save space and weight in critical applications.
  9. Demagnetization Concerns: Factor in handling and exposure to other magnetic fields; higher-grade magnets are more prone to demagnetization risks.

Importance of Coatings

  1. Corrosion Resistance: Essential to prevent rust, using materials like nickel, zinc, and epoxy.
  2. Wear Resistance: Hard coatings like nickel-copper-nickel protect against abrasion.
  3. Chemical Resistance: Epoxy and rubber coatings shield magnets from harsh chemicals.
  4. Thermal Stability: Coatings can preserve surface integrity under temperature fluctuations.
  5. Aesthetics and Bonding: Various coatings enhance appearance and facilitate attachment.
  6. Electrical Insulation: Non-conductive coatings like epoxy prevent electrical shorts.
  7. Medical Compatibility: Some coatings, such as perylene, are safe for use in the human body.
  8. Magnetic Field Impact: Generally minimal, but excessively thick layers can dampen the magnetic field slightly.

N42 vs N52 Magnet: Pros and Cons

When considering N42 versus N52 neodímium mágnesek, each grade has advantages and disadvantages, which can be suited to different applications. Here’s a balanced look:

N42 Magnets


  • Költségek: More affordable with a good balance of performance.
  • Durability: Less brittle, more resistant to impact.
  • Temperature: Better at retaining magnetism at high temperatures.
  • Supply: Generally more available with shorter delivery times.


  • Erősség: Weaker magnetic field compared to N52.
  • Size/Weight: Might be larger or heavier for equivalent strength.

N52 mágnesek


  • Erősség: Among the strongest of permanent magnets.
  • Design: Ideal for space and weight-sensitive applications.
  • Efficiency: Enhances the performance of magnetic-reliant devices.


  • Költségek: More expensive due to complex manufacturing.
  • Fragility: Prone to damage from handling due to brittleness.
  • Heat Sensitivity: Loses magnetism faster at high temperatures.
  • Korrózió: The coating is at risk if it is compromised.
  • Supply: Potentially limited availability and longer order lead times.

The choice between N42 and N52 magnets ultimately depends on the specific application’s requirements, including magnetic strength, environmental conditions, space constraints, and budget. A higher number does not automatically mean a better magnet for every situation. It’s crucial to assess the trade-offs and select based on which factors are most critical for the intended use.

Selecting the Right Neodymium Magnet Grade: User Guide

Assessing Application Needs

  • Magnetic Strength: Choose N52 for high strength; N42 or lower may suffice otherwise.
  • Environment: Pick a grade and coat for resilience in harsh conditions.
  • Size/Weight: Opt for higher grades when design space is limited.
  • Cost vs. Performance: Evaluate if higher grades’ benefits outweigh their cost.
  • Supply & Timing: Ensure grade availability aligns with project deadlines.

Handling Neodymium Magnets Safely

  • Personal Safety: Avoid trapping fingers or skin between magnets.
  • Protective Gear: Use gloves and eye protection during handling.
  • Medical Device Interference: Keep a safe distance from pacemakers and similar devices.
  • Secure Metal Items: Prevent accidents by keeping metals away from magnets.
  • Proper Storage: Use keepers to maintain safe magnetic fields when not in use.
  • Fire Hazard: Prevent collisions to avoid heat-induced fire risks.
  • Child Safety: Keep magnets inaccessible to children and brief them on safety if applicable.
  • Protect Sensitive Items: Store away from objects vulnerable to magnetic damage, such as credit cards, monitors, and watches.


The decision to employ N42 or N52 neodymium magnets hinges on assessing their magnetic strength against environmental constraints and economic factors relevant to your specific use case. Opting for the right grade is vital for maximizing efficiency and cost-effectiveness while adhering to safety standards. If you are uncertain about the best choice for your application, contact us all the time.

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