685 Bearing 5×11×3mm | RHD Bearings

685 BEARING SPECIFICATIONS

Precision-engineered for reliability and performance

🔍 Common Search Terms

685 bearing dimensions 5mm bore bearing load capacity miniature bearing for medical devices micro drive bearing research equipment bearing 5mm shaft 685 bearing specifications

📏Dimensions

d - ID (Bore Diameter)

5mm

D - OD (Outer Diameter)

11mm

B - Width

3mm

685 Bearing: 5 × 11 × 3mm

Bearing Cross-Sectional View

685 Deep Groove Ball Bearing Technical Drawing

⚡Load Ratings

Dynamic Load (Cr) 0.57kN

Static Load (Cor) 0.25kN

Load Capacity (kN) 0.57kN

Load Capacity (kg) 58kg

💡What This Means

Dynamic Load (0.57kN): Maximum force while rotating. Exceeding this causes rapid wear and failure within hours.

Static Load (0.25kN): Maximum force when stationary. Use 80% for safety.

Calculate Your Load: Measure shaft forces, belt tensions, or gear loads. Include shock/vibration factors.

Failure Warning: Overloading causes bearing raceways to crack and balls to flatten permanently.

🔄Speed Limits

Grease Lubrication 43000 RPM

Oil Lubrication 51000 RPM

RHD Z2V2 Bearings 1400 RPM

RHD Z3V3 Bearings 2880 RPM

RHD Z4V4 Bearings 6000+ RPM

💡What This Means

Grease Limit (43000 RPM): Heat generation increases exponentially above this. Grease breaks down, causing seizure.

Oil Advantage (51000 RPM): Better heat dissipation allows higher speed. Required for high-speed spindles.

Safe Operating Speed: Use 90% of limit (38700 RPM) for maximum L10 life of 10,000+ hours.

Failure Mode: Exceeding speed causes cage failure, ball skidding, and catastrophic overheating within minutes.

🔧Material & Quality

Steel Grade SAE52100

Ball Grade G10

Carbon Content 0.95-1.05%

Chromium Content 1.40-1.65%

ISO Standard 15:2011 Compliant

💡What This Means

SAE52100 Chrome Steel: Premium bearing steel - harder than tool steel

G10 Balls: Ultra-precision balls with ±0.25µm tolerance

High Carbon: Superior hardness and wear resistance

Chromium: Adds corrosion resistance and toughness

ISO Standard: Fits any 685 application worldwide

📊Vibration Classes

V2 Grade

Low: 58 μm/s

Med: 36 μm/s

High: 30 μm/s

V3 Grade

Low: 35 μm/s

Med: 21 μm/s

High: 18 μm/s

V4 Grade

Low: 32 μm/s

Med: 11 μm/s

High: 11 μm/s

💡What This Means

V2 Grade: Standard grade - good for general applications

V3 Grade: Low vibration - like a smooth car engine

V4 Grade: Ultra-smooth - for precision instruments

Frequency Bands: Measured across different rotation speeds

🔇Noise Levels

Z2 Grade < 34 dB

Z3 Grade < 30 dB

Z4 Grade (Quiet) < 26 dB

Application Precision Equipment

💡What This Means

Z2 Grade: Quiet as a library - good for most applications

Z3 Grade: Very quiet - like a whisper (40 dB = normal whisper)

Z4 Grade: Ultra-quiet - perfect for bedroom fans, medical equipment

Application: Ideal for sensitive environments

⚙️Internal Clearance

C2 (Tight) 0-7 μm

C0 (Normal) 2-13 μm

C3 (Loose) 8-23 μm

C4 (High Temp) 14-29 μm

C5 (Extra High Temp) 20-37 μm

💡What This Means

C2 (Tight): Precision applications - less play, more accurate

C0 (Normal): Standard choice - works for most applications

C3 (Loose): Better for hot environments - allows thermal expansion

C4 (Exta Loose): Hot or tight-fit setups — extra room for thermal expansion.

C5 (Max Loose): Extreme heat/tight fits or near-limit speeds — maximum expansion allowance

SEAL OPTIONS

Choose the right protection for your application

685-ZZ

When to Use 685-ZZ

Best For: Electronics, small motors, skateboards, general machinery

Conditions: Dry environments, moderate dust, precision applications

Achieves: Excellent balance of speed and protection for most applications

Avoid When: Heavy water exposure, chemical environments, food processing

685-2RS

Protected

Double rubber seals

Speed Factor: 0.7 (22400 RPM)

Protection: Moisture and dust

Lubrication: Sealed for life

When to Use 685-2RS

Best For: Outdoor applications, appliances, automotive systems, dirty environments

Conditions: Moisture, dust, contamination, washdown areas, food processing

Achieves: Maximum protection and zero maintenance requirements

Trade-off: Lower speed limit but superior environmental protection

685

High Speed

Open bearing, no seals

Speed Factor: 1.0 (32000 RPM)

Protection: None

Lubrication: External required

685-Z

Balanced

Single metal shield

Speed Factor: 0.95 (30400 RPM)

Protection: Light dust protection

Lubrication: Pre-greased

685-RS

Protected

Single rubber seal

Speed Factor: 0.8 (25600 RPM)

Protection: Moisture and dust

Lubrication: Pre-greased, sealed

APPLICATIONS

Precision performance across industries

Precision Medical Devices

surgical instruments
dental tools
ophthalmic devices
endoscopic systems
micro-surgical tools
medical imaging equipment
diagnostic equipment
therapeutic devices

Key Requirements: 5mm shaft with 1.88kN dynamic load capacity, 32,000 RPM grease lubrication, precision 16×5mm profile for medical device applications

High-Speed Micro-Drives

micro-motors
precision drives
high-speed spindles
micro-pumps
ultra-precision actuators
nano-positioning systems
micro-spindles
precision stages

Key Requirements: Precision 5mm bore with 0.3mm chamfer radius, 0.68kN static load rating for stable operation, 192kg load capacity for drive accuracy

Advanced Research Equipment

laboratory instruments
research microscopes
analytical equipment
spectroscopic systems
cryogenic devices
quantum research tools
testing equipment
calibration systems

Key Requirements: 5mm bore fits research shafts, 5mm width for compact mounting, 0.004kg weight for efficiency, 40,000 RPM oil lubrication capability

Compatible Models & Shaft Requirements

Find bearings with the same bore size and ensure proper shaft preparation

🔄Related Models

🔧Shaft Requirements

Nominal Diameter 5.000mm

Tolerance Grade h6 (4.991-5.009mm)

Surface Finish Ra 0.8μm max

Runout Tolerance 0.013mm max

🎯Application-Specific Options

High Temperature: C3 clearance recommended

High Speed: RHD V3 & V4 bearings recommended

Corrosive Environment: SS (Stainless Steel) bearings recommended

Professional Expertise & Standards

Technical insights from 20+ years of bearing engineering and manufacturing excellence

📋ISO Compliance

ISO 15:2011 compliant dimensions ensure interchangeability with global bearing standards and seamless replacement in existing equipment.

🔬Material Science

Gcr15 chrome steel composition optimized for small bearing applications, providing superior hardness, wear resistance, and fatigue life.

⚙️Precision Engineering

C0 clearance standard for most applications, C3 available for high-temperature use. h6 shaft tolerance recommended for optimal performance.

🔧Professional Installation

Professional installation required for maximum 50,000-hour service life. Proper tools and techniques prevent 80% of premature failures.

📊Performance Comparison

5mm bore with 1.88kN load capacity and 32,000 RPM capability. Superior Gcr15 steel vs. standard steel in competing products.

💰Value Engineering

Best value in miniature bearing category for 1.88kN performance. Quality bearings last 3-10x longer than cheap alternatives, reducing total cost of ownership.

FREQUENTLY ASKED QUESTIONS

Expert guidance for 685 bearing applications

Bearing Selection & Replacement ▼

What shaft tolerance is recommended for 685 bearing installation?

h6 tolerance grade (4.991-5.009mm) provides optimal fit and performance for 685 bearings.

Why This Matters

Proper shaft tolerance ensures correct interference fit, preventing slippage while allowing thermal expansion.

How To Handle It

Measure shaft diameter with precision micrometers, ensuring it falls within h6 tolerance range before installation.

Use h6 tolerance for standard applications, h5 for high-precision requirements, and h7 for loose fits.

Can I replace a 685 bearing with a different size bearing?

No, 685 bearings have unique 5×16×5mm dimensions and cannot be replaced with other sizes without mechanical modifications.

Why This Matters

Bearing dimensions are critical for proper fit, load distribution, and system performance.

How To Handle It

Always use exact 685 replacement or consult engineering specifications for alternative solutions.

Keep spare 685 bearings in stock to avoid production delays and ensure consistent quality.

What load capacity does the 685 bearing provide?

685 bearing offers 191.76kg (1.88kN) dynamic load capacity and 0.68kN static load capacity, suitable for precision medical device applications.

Why This Matters

Load capacity determines bearing suitability for specific applications and operating conditions.

How To Handle It

Calculate actual application loads and ensure they remain within 191.76kg (1.88kN) dynamic limit with appropriate safety factors.

Use 685 bearings for applications requiring up to 192kg load capacity with standard safety margins.

Installation & Maintenance ▼

What lubrication is required for 685 bearings?

685 bearings require grease lubrication for standard applications, with 32,000 RPM capability under proper lubrication conditions.

Why This Matters

Proper lubrication reduces friction, prevents wear, and extends bearing service life significantly.

How To Handle It

Apply high-quality bearing grease during installation and maintain regular lubrication intervals based on operating conditions.

Use lithium-based grease for general applications and synthetic grease for high-temperature or high-speed operations.

How do I properly install a 685 bearing?

Install 685 bearings using proper bearing installation tools, ensuring even pressure distribution and avoiding damage to bearing surfaces.

Why This Matters

Proper installation prevents premature failure, ensures optimal performance, and maintains dimensional accuracy.

How To Handle It

Use bearing heaters for interference fits, apply force evenly, and verify proper seating after installation.

Professional installation tools prevent 80% of premature bearing failures and ensure maximum service life.

What maintenance schedule is recommended for 685 bearings?

685 bearings require regular inspection every 3-6 months, with lubrication replenishment based on operating hours and conditions.

Why This Matters

Regular maintenance prevents unexpected failures, maintains performance, and extends bearing lifespan.

How To Handle It

Establish maintenance schedules based on operating conditions, document all maintenance activities, and monitor bearing condition regularly.

Implement predictive maintenance using vibration analysis to detect issues before they cause failures.

Troubleshooting & Problem Solving ▼

What causes premature failure in 685 bearings?

Common causes include improper installation, inadequate lubrication, contamination, excessive loads, and misalignment.

Why This Matters

Understanding failure causes helps prevent future issues and improves system reliability.

How To Handle It

Implement proper installation procedures, maintain clean environments, ensure adequate lubrication, and monitor operating conditions.

80% of premature failures are preventable through proper installation and maintenance practices.

How do I identify bearing wear in 685 bearings?

Signs of wear include increased noise, vibration, temperature rise, and reduced performance in 685 bearings.

Why This Matters

Early detection of wear prevents catastrophic failures and allows for planned replacement.

How To Handle It

Monitor bearing condition regularly, use vibration analysis equipment, and establish baseline performance measurements.

Implement condition monitoring systems to detect wear patterns before they affect system performance.

What should I do if a 685 bearing fails unexpectedly?

Immediately stop operation, inspect for damage, identify root cause, and replace with properly installed new bearing.

Why This Matters

Quick response prevents secondary damage and minimizes production downtime.

How To Handle It

Document failure details, analyze root causes, implement corrective actions, and maintain spare bearings for critical applications.

Keep detailed failure records to identify patterns and prevent similar issues in the future.

Cost & Performance Optimization ▼

How does 685 bearing cost compare to alternatives?

685 bearings offer excellent value with 191.76kg (1.88kN) load capacity at competitive pricing, providing 3-10x longer lifespan than budget alternatives.

Why This Matters

Total cost of ownership includes initial cost, maintenance, replacement frequency, and downtime costs.

How To Handle It

Calculate total cost of ownership, consider quality vs. price trade-offs, and invest in proper installation and maintenance.

High-quality bearings like 685 typically cost 20-30% more but last 3-10x longer than budget alternatives.

What performance benefits does 685 bearing provide?

685 bearings deliver high load capacity, excellent speed capability, precision dimensions, and reliable performance in medical device applications.

Why This Matters

Performance directly impacts system efficiency, reliability, and overall productivity.

How To Handle It

Select 685 bearings for applications requiring 5mm bore, 191.76kg (1.88kN) load capacity, and 32,000 RPM capability.

685 bearings excel in applications requiring precision medical device performance with substantial load handling.

How can I optimize 685 bearing performance?

Optimize performance through proper installation, adequate lubrication, contamination control, and regular maintenance practices.

Why This Matters

Optimized performance extends bearing life, reduces maintenance costs, and improves system reliability.

How To Handle It

Follow manufacturer recommendations, implement preventive maintenance, monitor operating conditions, and use quality lubricants.

Proper optimization can extend 685 bearing service life from 20,000 to 50,000+ hours in typical applications.

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Bulk Orders: Significant discounts available

685 Bearing 5×16×5mm Deep Groove Ball Bearing | RHD

685 BEARING SPECIFICATIONS

🔍 Common Search Terms

📏Dimensions

Bearing Cross-Sectional View

⚡Load Ratings

💡What This Means

🔄Speed Limits

💡What This Means

🔧Material & Quality

💡What This Means

📊Vibration Classes

💡What This Means

🔇Noise Levels

💡What This Means

⚙️Internal Clearance

💡What This Means

SEAL OPTIONS

685-ZZ

When to Use 685-ZZ

685-2RS

When to Use 685-2RS

685

685-Z

685-RS

APPLICATIONS

Precision Medical Devices

High-Speed Micro-Drives

Advanced Research Equipment

Compatible Models & Shaft Requirements

🔄Related Models

🔧Shaft Requirements

🎯Application-Specific Options

Professional Expertise & Standards

📋ISO Compliance

🔬Material Science

⚙️Precision Engineering

🔧Professional Installation

📊Performance Comparison

💰Value Engineering

FREQUENTLY ASKED QUESTIONS

What shaft tolerance is recommended for 685 bearing installation?

Can I replace a 685 bearing with a different size bearing?

What load capacity does the 685 bearing provide?

What lubrication is required for 685 bearings?

How do I properly install a 685 bearing?

What maintenance schedule is recommended for 685 bearings?

What causes premature failure in 685 bearings?

How do I identify bearing wear in 685 bearings?

What should I do if a 685 bearing fails unexpectedly?

How does 685 bearing cost compare to alternatives?

What performance benefits does 685 bearing provide?

How can I optimize 685 bearing performance?

Need 685 Bearings Today?

Instant Quote

Same Day Dispatch

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