62319 Bearing 95x200x67mm | RHD Bearings

Ninety-five millimeter bore that's built like a tank but purrs like a kitten.

Meet the 62319: With 16513kg (162kN) of engineering excellence and 95mm precision, this bearing delivers the perfect blend of personality and performance for your critical applications. The most widely used bearing in electronics, small motors, and precision instruments.

95mm
Bore Diameter
200mm
Outer Diameter
67mm
Width
162 kN
Load Rating
16513 Kg
Load Capacity
9.2 Kg
Weight
62319 Bearing 95×200×67mm - RHD Bearings

62319 BEARING SPECIFICATIONS

Precision-engineered for reliability and performance

🔍 Common Search Terms

62319 bearing specifications 95mm bore bearing with 200mm outer diameter 62319 bearing load capacity and speed rating 62319 bearing dimensions and weight 62319 bearing seal options and applications 62319 bearing cross reference and replacement

📏Dimensions

d - ID (Bore Diameter)
95mm
D - OD (Outer Diameter)
200mm
B - Width
67mm
62319 Bearing: 95 × 200 × 67mm

Cross-Sectional View

62319 Bearing Cross-Sectional View

⚡Load Ratings

Dynamic Load (Cr) 162kN
Static Load (Cor) 64.2kN
Load Capacity (kN) 162kN
Load Capacity (kg) 16513kg

ðŸ’ĄWhat This Means

Dynamic Load (162kN): Maximum force while rotating. Exceeding this causes rapid wear and failure within hours.
Static Load (64.2kN): 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 3400 RPM
Oil Lubrication 4400 RPM
RHD Z2V2 Bearings 1400 RPM
RHD Z3V3 Bearings 2880 RPM
RHD Z4V4 Bearings 6000+ RPM

ðŸ’ĄWhat This Means

Grease Limit (3400 RPM): Heat generation increases exponentially above this. Grease breaks down, causing seizure.
Oil Advantage (4400 RPM): Better heat dissipation allows higher speed. Required for high-speed spindles.
Safe Operating Speed: Use 90% of limit (3060 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

ðŸ’ĄWhat This Means

SAE52100 Chrome Steel: Premium bearing steel - harder than tool steel
G10 Balls: Ultra-precision balls with Âą0.25Âĩm tolerance
High Carbon: Superior hardness and wear resistance
Chromium: Adds corrosion resistance and toughness
ISO Standard: Fits any 62319 application worldwide

📊Vibration Classes

V2 Grade
Low: 210 Ξm/s
Med: 180 Ξm/s
High: 270 Ξm/s
V3 Grade
Low: 145 Ξm/s
Med: 125 Ξm/s
High: 180 Ξm/s
V4 Grade
Low: 75 Ξm/s
Med: 75 Ξm/s
High: 115 Ξm/s

ðŸ’ĄWhat 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 < 55 dB
Z3 Grade < 50 dB
Z4 Grade (Quiet) < 43 dB
Application Precision Equipment

ðŸ’ĄWhat 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

⚙ïļInternal Clearance

C2 (Tight) 1-18 Ξm
C0 (Normal) 12-36 Ξm
C3 (Loose) 30-58 Ξm
C4 (High Temp) 53-84 Ξm
C5 (Extra High Temp) 75-120 Ξm

ðŸ’ĄWhat 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

62319

High Speed

Open bearing, no seals

Speed Factor: 1.0 (3400 RPM)
Protection: None
Lubrication: External required

62319-Z

Balanced

Single metal shield

Speed Factor: 0.95 (3230 RPM)
Protection: Light dust protection
Lubrication: Pre-greased

62319-RS

Protected

Single rubber seal

Speed Factor: 0.8 (2720 RPM)
Protection: Moisture and dust
Lubrication: Pre-greased, sealed

APPLICATIONS

Precision performance across industries

Drive Shafts

  • Heavy industrial drive shafts
  • Large electric motor shafts
  • Hydraulic motor shafts
  • Elevator drive shafts
  • Mining haul truck drives
  • Cranes and hoists shafts
  • Steel mill power shafts
  • Construction vehicle drive shafts

Key Requirements: 95mm shaft with 162.00kN (≈16513kg) dynamic load capacity, 3,400 RPM grease lubrication, 200×67mm profile for drive shafts

Automation Pivots

  • Large robotic arm pivots
  • Material handling pivots
  • Automated machine joints
  • Inspection tool pivots
  • Medical robotic pivots
  • CNC machine arm pivots
  • Precision equipment pivots
  • Assembly line pivots

Key Requirements: Precision 95mm bore with 64.20kN (≈6547kg) static load for precise automation

Material Handlers

  • Warehouse material transfer carts
  • Mining transfer wagons
  • Heavy load hand trucks
  • Construction site carts
  • Industrial moving carts
  • Bulk material haulers
  • Factory assembly carts
  • Large utility carts

Key Requirements: 95mm bore, 67mm width built for heavy load and transport

Compatible Models & Shaft Requirements

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

🔧Shaft Requirements

Nominal Diameter 95.000mm
Tolerance Grade h6 (94.978-95.000mm)
Surface Finish Ra 0.8Ξm max
Runout Tolerance 0.013mm max

ðŸŽŊApplication-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 wide-bodied bearing applications, providing superior hardness, wear resistance, and fatigue life.

⚙ïļ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

Shares the 95mm bore (ID) with 6819, 6919, 16019, so it can be considered where the shaft is fixed at 95mm. The 62319 is rated 162.00kN dynamic / 64.20kN static at 200mm OD — the highest-capacity 95mm-bore option, above the 62219 (82.80kN).

💰Value Engineering

Best value in wide-bodied bearing category for 162kN performance. Quality bearings last 3-10x longer than cheap alternatives, reducing total cost of ownership.

FREQUENTLY ASKED QUESTIONS

Expert guidance for 62319 bearing applications

Bearing Selection & Replacement ▾

What makes 62319 bearing suitable for wide-bodied applications?

62319 features 67mm width (vs 12mm standard) providing enhanced load distribution and stability for demanding applications.
Why This Matters
Wide-bodied design reduces stress concentration, extends bearing life, and improves overall system reliability.
How To Handle It
Verify housing dimensions accommodate 67mm width and ensure proper alignment during installation.
Wide-bodied bearings are ideal for applications with high radial loads or where space allows for increased width.

Can 62319 replace standard 95mm bore bearings?

Yes, 62319 can replace standard 95mm bore bearings when enhanced load capacity and stability are required.
Why This Matters
Provides upgrade path for applications experiencing premature bearing failures or requiring higher load ratings.
How To Handle It
Check housing width compatibility (67mm vs 12mm standard) and verify load requirements match 16524.0kg (162kN) rating.
Always verify dimensional compatibility before replacement, especially width requirements.

What are the key advantages of 62319 over standard 95mm bearings?

62319 offers 67mm width, 16524.0kg (162kN) dynamic load capacity, and enhanced stability compared to standard 95mm bearings.
Why This Matters
Wide-bodied design provides superior load distribution, reduced stress, and extended service life.
How To Handle It
Evaluate application requirements and space constraints to determine if wide-bodied design is beneficial.
Consider 62319 for applications with high radial loads or where bearing life is critical.
Installation & Maintenance ▾

What are the proper installation procedures for 62319 bearing?

Use proper tools, maintain cleanliness, apply appropriate force, and ensure correct alignment for 62319 installation.
Why This Matters
Proper installation prevents damage, ensures optimal performance, and maximizes bearing service life.
How To Handle It
Clean shaft and housing, use bearing puller/installer, apply force to inner ring only, and verify smooth rotation.
Never apply force to outer ring during installation as it can damage bearing components.

How often should 62319 bearing be lubricated?

Lubrication frequency depends on operating conditions, speed, and load, typically every 6-12 months for normal applications.
Why This Matters
Proper lubrication reduces friction, prevents wear, and extends bearing service life significantly.
How To Handle It
Use high-quality grease suitable for bearing application, apply appropriate quantity, and monitor lubrication condition regularly.
Over-lubrication can cause overheating, while under-lubrication leads to premature failure.

What maintenance practices extend 62319 bearing life?

Regular inspection, proper lubrication, contamination control, and monitoring operating conditions extend 62319 bearing life.
Why This Matters
Proactive maintenance prevents premature failures, reduces downtime, and optimizes system performance.
How To Handle It
Establish maintenance schedule, monitor vibration and temperature, and replace bearings before catastrophic failure.
Keep detailed maintenance records to identify patterns and optimize maintenance intervals.
Troubleshooting & Problem Solving ▾

What causes 62319 bearing premature failure?

Common causes include contamination, improper lubrication, misalignment, overloading, and incorrect installation.
Why This Matters
Identifying failure causes helps prevent recurrence and improves system reliability.
How To Handle It
Analyze failed bearing, check operating conditions, and implement corrective measures.
Keep failed bearings for analysis to identify root causes and prevent future failures.

How to diagnose 62319 bearing problems?

Monitor vibration, temperature, noise levels, and visual inspection to diagnose 62319 bearing problems.
Why This Matters
Early detection allows for planned maintenance and prevents catastrophic failures.
How To Handle It
Use vibration analysis tools, infrared thermography, and regular visual inspections.
Establish baseline measurements when bearing is new to detect changes over time.

What are signs of 62319 bearing wear?

Signs include increased vibration, temperature rise, noise changes, and visual wear patterns on raceways and balls.
Why This Matters
Early detection of wear allows for planned replacement and prevents unexpected failures.
How To Handle It
Monitor operating parameters, perform regular inspections, and replace bearings when wear exceeds limits.
Document wear patterns to improve bearing selection for future applications.
Cost & Performance Optimization ▾

How does 62319 bearing compare in cost-performance ratio?

62319 offers excellent cost-performance ratio with 16524.0kg (162kN) load capacity and extended service life.
Why This Matters
Optimal cost-performance ratio reduces total cost of ownership and improves system efficiency.
How To Handle It
Compare initial cost vs. service life, maintenance requirements, and performance benefits.
Consider total cost of ownership, not just initial purchase price.

What factors affect 62319 bearing total cost of ownership?

Factors include initial cost, service life, maintenance requirements, downtime costs, and replacement frequency.
Why This Matters
Understanding total cost of ownership helps make informed decisions and optimize system performance.
How To Handle It
Calculate all costs over bearing service life and compare with alternatives.
Quality bearings often provide lower total cost of ownership despite higher initial cost.

How to optimize 62319 bearing performance and reduce costs?

Optimize through proper selection, installation, lubrication, and maintenance practices.
Why This Matters
Optimized performance reduces operating costs, extends service life, and improves system reliability.
How To Handle It
Follow manufacturer recommendations, implement preventive maintenance, and monitor performance.
Invest in proper tools and training for installation and maintenance to maximize bearing performance.
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