6800 Deep Groove Ball Bearing

6800 BEARING SPECIFICATIONS

Precision-engineered for reliability and performance

🔍 Common Search Terms

10mm bore bearing compact bearing 19mm outer diameter high speed small bearing 1.4kN load capacity bearing precision miniature bearing 6800 bearing specifications

📏Dimensions

d - ID (Bore Diameter)

10mm

D - OD (Outer Diameter)

19mm

B - Width

5mm

d₁ - Shoulder Diameter

≈N/Amm

D₂ - Recess Diameter

≈17.15mm

r₁,₂ - Chamfer Radius

min. 0.3mm

6800 Bearing: 10 × 19 × 5mm

Cross-Sectional View

⚡Load Ratings

Dynamic Load (Cr) 1.4kN

Static Load (Cor) 0.75kN

Load Capacity (kN) 1.4kN

Load Capacity (kg) 142kg

💡What This Means

Dynamic Load (1.4kN): Maximum force while rotating. Exceeding this causes rapid wear and failure within hours.

Static Load (0.75kN): 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 28000 RPM

Oil Lubrication 36000 RPM

RHD Z2V2 Bearings 1400 RPM

RHD Z3V3 Bearings 2880 RPM

RHD Z4V4 Bearings 4000+ RPM

💡What This Means

Grease Limit (28000 RPM): Heat generation increases exponentially above this. Grease breaks down, causing seizure.

Oil Advantage (36000 RPM): Better heat dissipation allows higher speed. Required for high-speed spindles.

Safe Operating Speed: Use 90% of limit (25200 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 6800 application worldwide

📊Vibration Classes

V2 Grade

Low: 90 μm/s

Med: 60 μm/s

High: 50 μm/s

V3 Grade

Low: 55 μm/s

Med: 35 μm/s

High: 30 μm/s

V4 Grade

Low: 45 μm/s

Med: 14 μm/s

High: 15 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 < 39 dB

Z3 Grade < 35 dB

Z4 Grade (Quiet) < 30 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

6800-ZZ

When to Use 6800-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

6800-2RS

Protected

Double rubber seals

Speed Factor: 0.7 (19600 RPM)

Protection: Moisture and dust

Lubrication: Sealed for life

When to Use 6800-2RS

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

6800

High Speed

Open bearing, no seals

Speed Factor: 1.0 (28000 RPM)

Protection: None

Lubrication: External required

6800-Z

Balanced

Single metal shield

Speed Factor: 0.95 (26600 RPM)

Protection: Light dust protection

Lubrication: Pre-greased

6800-RS

Protected

Single rubber seal

Speed Factor: 0.8 (22400 RPM)

Protection: Moisture and dust

Lubrication: Pre-greased, sealed

APPLICATIONS

Precision performance across industries

Heavy Motors

Industrial pump motors
Electric vehicle drives
HVAC fan shafts
Mining equipment motors
Construction machine drives
Large compressor motors
Automotive engine shafts
Heavy-duty electric tools

Key Requirements: 10mm shaft with 1.38kN (≈140kg) dynamic load capacity, 28,000 RPM grease lubrication, 19×5mm profile for ultra-thin section applications

Precision Instruments

Medical device rotors
Calibration instrument mounts
Measurement tool spindles
Optical sensor bearings
Robotic actuator joints
Scientific equipment pivots
Inspection camera mounts
Automated positioning devices

Key Requirements: Precision 10mm bore with 585N (≈60kg) static load rating for accurate measurement

Compact Drives

Small manufacturing gearboxes
Home appliance motors
Portable power tool shafts
Robotic arm joints
Camera gimbal mounts
Miniature pump impellers
Electric fan spindles
Precision tool drives

Key Requirements: 10mm bore, 5mm width optimized for compact mechanical systems

Compatible Models & Shaft Requirements

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

🔄Related Models

🔧Shaft Requirements

Nominal Diameter 10.000mm

Tolerance Grade h6 (9.991-10.009mm)

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

Handles 1.4kN load while maintaining compact design. Superior Gcr15 steel vs. standard steel in competing products.

💰Value Engineering

Best value in compact bearing category for 1.4kN performance. Quality bearings last 3-10x longer than cheap alternatives, reducing total cost of ownership.

FREQUENTLY ASKED QUESTIONS

Expert guidance for 6800 bearing applications

Bearing Selection & Replacement ▼

What applications is the 6800 bearing suitable for?

The 6800 bearing is ideal for compact applications requiring high precision, including small motors, fans, precision instruments, and miniature machinery.

Why This Matters

Proper bearing selection ensures optimal performance, longevity, and prevents premature failure in your equipment.

How To Handle It

Consider load requirements (142.8kg (1.4kN) dynamic), speed needs (28,000 RPM), and space constraints (10x19x5mm dimensions).

For high-speed applications, consider oil lubrication for maximum 36,000 RPM capability.

Can I replace a 6800 bearing with a different model?

Yes, but only with bearings having identical dimensions (10x19x5mm) and similar or higher load ratings to maintain performance.

Why This Matters

Incorrect replacement can cause equipment failure, increased wear, and safety hazards.

How To Handle It

Always verify bore diameter (10mm), outer diameter (19mm), and width (5mm) before replacement.

Check load ratings - replacement bearing should have at least 142.8kg (1.4kN) dynamic load capacity.

What's the difference between open, shielded, and sealed 6800 bearings?

Open (6800) offers maximum speed, single shield (6800-Z) provides dust protection, double shield (6800-ZZ) offers better sealing, and sealed versions (6800-RS/2RS) provide moisture protection.

Why This Matters

Seal type affects speed capability, maintenance requirements, and environmental protection.

How To Handle It

Choose based on environment: clean indoor use (open), dusty conditions (shields), or wet/harsh environments (seals).

Sealed bearings reduce maintenance but have lower speed ratings - consider your application's priority.

Installation & Maintenance ▼

What shaft tolerance is recommended for 6800 bearing installation?

h6 tolerance (9.991-10.009mm) is recommended for optimal fit and performance with the 10mm bore.

Why This Matters

Proper shaft tolerance ensures correct interference fit, prevents slippage, and maximizes bearing life.

How To Handle It

Machine shaft to h6 tolerance range and ensure surface finish of Ra 0.8μm maximum.

Use proper installation tools to avoid damaging the bearing during press-fit installation.

How often should 6800 bearings be lubricated?

Open bearings require regular lubrication every 3-6 months, while sealed bearings are lubricated for life and don't require maintenance.

Why This Matters

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

How To Handle It

Use high-quality grease suitable for high-speed applications and follow manufacturer's lubrication intervals.

Monitor bearing temperature and noise - changes may indicate lubrication issues.

What's the maximum operating temperature for 6800 bearings?

Standard 6800 bearings operate up to 120°C, with C3 clearance versions suitable for higher temperatures up to 150°C.

Why This Matters

Exceeding temperature limits causes lubricant breakdown, dimensional changes, and premature failure.

How To Handle It

Monitor operating temperature and consider C3 clearance for high-temperature applications.

Use high-temperature grease for applications above 80°C to maintain proper lubrication.

Troubleshooting & Problem Solving ▼

Why is my 6800 bearing running hot?

Common causes include over-lubrication, insufficient lubrication, misalignment, excessive load, or contamination.

Why This Matters

Overheating leads to lubricant breakdown, dimensional changes, and catastrophic bearing failure.

How To Handle It

Check lubrication levels, verify load capacity (max 142.8kg (1.4kN)), ensure proper alignment, and inspect for contamination.

Use infrared thermometer to monitor bearing temperature - should not exceed 80°C under normal operation.

What causes excessive noise in 6800 bearings?

Noise typically indicates contamination, insufficient lubrication, bearing damage, or improper installation.

Why This Matters

Unusual noise often precedes bearing failure and can indicate serious mechanical issues.

How To Handle It

Inspect for contamination, check lubrication, verify proper installation, and replace if damage is found.

Use stethoscope or vibration analysis to identify noise source and severity.

How do I know when to replace a 6800 bearing?

Replace when you notice excessive play, rough rotation, unusual noise, overheating, or visible damage.

Why This Matters

Delayed replacement can cause equipment damage, safety hazards, and increased downtime costs.

How To Handle It

Perform regular inspections, monitor performance indicators, and replace preventively based on operating hours.

Keep spare bearings on hand for critical applications to minimize downtime.

Cost & Performance Optimization ▼

What's the expected service life of 6800 bearings?

With proper installation and maintenance, 6800 bearings typically provide 20,000-50,000 hours of service life.

Why This Matters

Understanding service life helps with maintenance planning, inventory management, and cost optimization.

How To Handle It

Track operating hours, monitor performance indicators, and plan replacements based on actual service life data.

Implement condition monitoring to optimize replacement timing and avoid unexpected failures.

How can I reduce bearing maintenance costs?

Use sealed bearings for life, implement proper installation procedures, maintain clean operating environment, and use quality lubricants.

Why This Matters

Proper maintenance practices reduce total cost of ownership and prevent expensive equipment damage.

How To Handle It

Choose appropriate bearing type for environment, follow maintenance schedules, and train personnel on proper procedures.

Consider sealed bearings (6800-2RS) for applications where maintenance access is difficult.

What's the cost difference between open and sealed 6800 bearings?

Sealed bearings typically cost 20-30% more than open bearings but eliminate lubrication maintenance costs.

Why This Matters

Understanding cost implications helps make informed decisions about bearing selection and maintenance strategy.

How To Handle It

Calculate total cost of ownership including initial cost, maintenance, and downtime costs over bearing life.

For applications with difficult maintenance access, sealed bearings often provide better value despite higher initial cost.

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