16016 Bearing 80×125×14mm

16016 BEARING SPECIFICATIONS

Precision-engineered for reliability and performance

🔍 Common Search Terms

16016 bearing specifications 80x125x14 bearing dimensions 16016 bearing load rating 16016 bearing speed limit 16016 bearing price 16016 bearing cross reference

📏Dimensions

d - ID (Bore Diameter)

80mm

D - OD (Outer Diameter)

125mm

B - Width

14mm

d₁ - Shoulder Diameter

≈109.8mm

D₂ - Recess Diameter

≈N/Amm

r₁,₂ - Chamfer Radius

min. 0.6mm

16016 Bearing: 80 × 125 × 14mm

Cross-Sectional View

⚡Load Ratings

Dynamic Load (Cr) 33.1kN

Static Load (Cor) 31.4kN

Load Capacity (kN) 33.1kN

Load Capacity (kg) 3374kg

💡What This Means

Dynamic Load (33.1kN): Maximum force while rotating. Exceeding this causes rapid wear and failure within hours.

Static Load (31.4kN): 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 5000 RPM

Oil Lubrication 6000 RPM

RHD Z2V2 Bearings 1400 RPM

RHD Z3V3 Bearings 2880 RPM

RHD Z4V4 Bearings 6000+ RPM

💡What This Means

Grease Limit (5000 RPM): Heat generation increases exponentially above this. Grease breaks down, causing seizure.

Oil Advantage (6000 RPM): Better heat dissipation allows higher speed. Required for high-speed spindles.

Safe Operating Speed: Use 90% of limit (4500 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 16016 application worldwide

📊Vibration Classes

V2 Grade

Low: 180 μm/s

Med: 120 μm/s

High: 240 μm/s

V3 Grade

Low: 130 μm/s

Med: 110 μm/s

High: 160 μm/s

V4 Grade

Low: 65 μm/s

Med: 65 μm/s

High: 100 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 < 49 dB

Z3 Grade < 44 dB

Z4 Grade (Quiet) < 39 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) 1-15 μm

C0 (Normal) 10-30 μm

C3 (Loose) 25-51 μm

C4 (High Temp) 46-71 μm

C5 (Extra High Temp) 65-105 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

16016-ZZ

When to Use 16016-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

16016-2RS

Protected

Double rubber seals

Speed Factor: 0.7 (3500 RPM)

Protection: Moisture and dust

Lubrication: Sealed for life

When to Use 16016-2RS

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

16016

High Speed

Open bearing, no seals

Speed Factor: 1.0 (5000 RPM)

Protection: None

Lubrication: External required

16016-Z

Balanced

Single metal shield

Speed Factor: 0.95 (4750 RPM)

Protection: Light dust protection

Lubrication: Pre-greased

16016-RS

Protected

Single rubber seal

Speed Factor: 0.8 (4000 RPM)

Protection: Moisture and dust

Lubrication: Pre-greased, sealed

APPLICATIONS

Precision performance across industries

Industrial Pumps

Large centrifugal pumps
Chemical dosing pumps
Water treatment systems
Food & beverage pumps
Cooling tower pumps
Hydraulic fluid pumps
Wastewater pumps
Agricultural irrigation pumps

Key Requirements: 80mm shaft with 40.2kN (≈4,100kg) dynamic load capacity, 3,800 RPM grease lubrication, 95×27mm for pump machinery

Heavy Machinery

Mining shafts
Construction pivots
Bulk material loaders
Industrial presses
Forestry equipment
Agricultural machinery
Mining conveyors
Heavy-duty mixers

Key Requirements: Precision 80mm bore with 31.5kN (≈3,210kg) static load rating

Transport Wheels

Automated guided vehicles
Forklift wheels
Mining vehicle rollers
Warehouse carts
Heavy construction wheels
Material handling wheels
Bulk cargo cart wheels
Platform transport wheels

Key Requirements: 80mm bore, 28mm width suitable for transport

Compatible Models & Shaft Requirements

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

🔄Related Models

🔧Shaft Requirements

Nominal Diameter 80.000mm

Tolerance Grade h6 (79.987-80.013mm)

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 thin section 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 28.5kN more load than typical smaller bearings while maintaining ultra-thin design. Superior Gcr15 steel vs. standard steel in competing products.

💰Value Engineering

Best value in thin section bearing category for 32.00kN performance. Quality bearings last 3-10x longer than cheap alternatives, reducing total cost of ownership.

FREQUENTLY ASKED QUESTIONS

Expert guidance for 16016 bearing applications

Bearing Selection & Replacement ▼

What makes the 16016 bearing suitable for high-speed applications?

The 16016 bearing is designed for high-speed applications with a grease RPM rating of 5,000 and oil RPM of 6,000, making it ideal for precision machinery and high-speed equipment.

Why This Matters

High-speed capability ensures reliable performance in demanding applications without premature failure or excessive heat generation.

How To Handle It

Select 16016 bearing for applications requiring speeds up to 5,000 RPM with proper lubrication and mounting practices.

For maximum speed performance, use oil lubrication and ensure proper shaft and housing tolerances (h6 shaft tolerance recommended).

Can I replace a 16016 bearing with other series bearings?

The 16016 bearing can be cross-referenced with 6016, 6216, 6316, and 6816 series bearings that share the same 80mm bore diameter, though load capacities and dimensions may vary.

Why This Matters

Proper cross-referencing ensures compatibility while allowing flexibility in bearing selection based on specific application requirements.

How To Handle It

Verify outer diameter (125mm) and width (14mm) compatibility before replacement, and consider load requirements when selecting alternatives.

Always check the specific application requirements and consult technical specifications before making cross-series replacements.

What is the load capacity of the 16016 bearing?

The 16016 bearing has a dynamic load rating of 3264.0kg (32.00kN) (1632kg) and static load rating of 28.50kN (1454kg), making it suitable for moderate to high-load applications.

Why This Matters

Understanding load capacity is crucial for proper bearing selection and preventing premature failure due to overloading.

How To Handle It

Calculate your application's equivalent dynamic load and ensure it doesn't exceed 3264.0kg (32.00kN) for optimal bearing life.

For applications with high static loads, ensure the static load rating of 2907.0kg (28.50kN) is not exceeded to prevent permanent deformation.

Installation & Maintenance ▼

What shaft tolerance is recommended for the 16016 bearing?

The 16016 bearing requires an h6 shaft tolerance with a nominal diameter of 80.000mm and tolerance range of 79.987-80.013mm for optimal performance.

Why This Matters

Proper shaft tolerance ensures correct fit and prevents issues like excessive clearance or interference that can lead to premature failure.

How To Handle It

Machine the shaft to h6 tolerance (79.987-80.013mm) with a surface finish of Ra 0.8μm maximum and runout tolerance of 0.013mm maximum.

Use precision measuring tools to verify shaft dimensions before installation, as even small deviations can significantly impact bearing performance.

How should I lubricate the 16016 bearing?

The 16016 bearing can be lubricated with grease (up to 5,000 RPM) or oil (up to 6,000 RPM), with the choice depending on speed requirements and application conditions.

Why This Matters

Proper lubrication is essential for bearing performance, reducing friction, preventing wear, and extending service life.

How To Handle It

For high-speed applications, use oil lubrication. For general applications, use high-quality bearing grease with appropriate viscosity.

Avoid over-lubrication as it can cause excessive heat generation and reduce bearing efficiency, especially in high-speed applications.

What is the recommended installation method for the 16016 bearing?

The 16016 bearing should be installed using proper bearing installation tools, ensuring even pressure distribution and avoiding damage to the bearing components.

Why This Matters

Proper installation prevents bearing damage, ensures correct fit, and maximizes service life while maintaining performance characteristics.

How To Handle It

Use bearing installation tools or sleeves to apply pressure evenly on the inner ring, never apply force directly to the outer ring or balls.

Heat the bearing to 80-100°C before installation to expand the inner ring, making installation easier and reducing the risk of damage.

Troubleshooting ▼

Why is my 16016 bearing running hot?

A hot-running 16016 bearing is typically caused by over-lubrication, excessive load, misalignment, or insufficient clearance, requiring immediate investigation and correction.

Why This Matters

Excessive heat can lead to premature bearing failure, lubricant breakdown, and potential damage to surrounding components.

How To Handle It

Check lubrication levels, verify load conditions, inspect for misalignment, and ensure proper clearance. Reduce speed if necessary and monitor temperature.

Use infrared thermometers to monitor bearing temperature during operation - temperatures above 80°C indicate potential problems requiring attention.

What causes excessive noise in the 16016 bearing?

Excessive noise in the 16016 bearing is usually caused by contamination, insufficient lubrication, bearing damage, or improper installation, each requiring specific corrective actions.

Why This Matters

Unusual noise often indicates bearing problems that, if left unaddressed, can lead to catastrophic failure and equipment damage.

How To Handle It

Inspect for contamination, check lubrication levels, examine bearing surfaces for damage, and verify proper installation and alignment.

Use vibration analysis tools to detect bearing problems early, as noise often precedes visible damage and can be caught before failure occurs.

How do I identify if my 16016 bearing needs replacement?

Signs that your 16016 bearing needs replacement include excessive noise, vibration, heat generation, increased friction, or visible damage to bearing components.

Why This Matters

Timely bearing replacement prevents catastrophic failure, reduces downtime, and protects other equipment components from damage.

How To Handle It

Monitor bearing performance regularly, conduct vibration analysis, and inspect for visual signs of wear or damage during maintenance intervals.

Establish a preventive maintenance schedule based on operating conditions - high-speed applications may require more frequent inspection and replacement.

Cost & Performance ▼

What is the cost-benefit of choosing the 16016 bearing over alternatives?

The 16016 bearing offers excellent value with 3264.0kg (32.00kN) load capacity in an ultra-thin 80x125x14mm design, providing 3-10x longer service life than cheap alternatives.

Why This Matters

Quality bearings reduce total cost of ownership through longer service life, reduced maintenance, and fewer unplanned failures.

How To Handle It

Calculate total cost of ownership including initial cost, maintenance, and downtime costs when comparing bearing options.

Consider the cost of equipment downtime and replacement labor when evaluating bearing options - quality bearings often pay for themselves through reduced maintenance costs.

How can I optimize the performance of my 16016 bearing?

Optimize 16016 bearing performance by ensuring proper installation, correct lubrication, appropriate load conditions, and regular maintenance according to manufacturer specifications.

Why This Matters

Optimized performance extends bearing life, reduces maintenance costs, and ensures reliable operation in demanding applications.

How To Handle It

Follow manufacturer guidelines for installation, use recommended lubricants, monitor operating conditions, and establish regular maintenance schedules.

Implement condition monitoring systems to track bearing performance and identify optimization opportunities before problems occur.

What factors affect the service life of the 16016 bearing?

The service life of the 16016 bearing is affected by load conditions, speed, lubrication quality, operating temperature, contamination levels, and installation practices.

Why This Matters

Understanding factors that affect service life helps optimize operating conditions and maximize bearing performance and longevity.

How To Handle It

Control operating conditions within recommended limits, maintain proper lubrication, prevent contamination, and ensure correct installation and alignment.

Keep detailed records of operating conditions and maintenance activities to identify patterns and optimize bearing service life over time.

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Bulk Orders: Significant discounts available

16016 Bearing 80x125x14mm - RHD Bearings

16016 BEARING SPECIFICATIONS

🔍 Common Search Terms

📏Dimensions

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

16016-ZZ

When to Use 16016-ZZ

16016-2RS

When to Use 16016-2RS

16016

16016-Z

16016-RS

APPLICATIONS

Industrial Pumps

Heavy Machinery

Transport Wheels

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 makes the 16016 bearing suitable for high-speed applications?

Can I replace a 16016 bearing with other series bearings?

What is the load capacity of the 16016 bearing?

What shaft tolerance is recommended for the 16016 bearing?

How should I lubricate the 16016 bearing?

What is the recommended installation method for the 16016 bearing?

Why is my 16016 bearing running hot?

What causes excessive noise in the 16016 bearing?

How do I identify if my 16016 bearing needs replacement?

What is the cost-benefit of choosing the 16016 bearing over alternatives?

How can I optimize the performance of my 16016 bearing?

What factors affect the service life of the 16016 bearing?

Need 16016 Bearings Today?

Instant Quote

Same Day Dispatch

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