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CAUSES OF BEARING FAILURE

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Presentation on theme: "CAUSES OF BEARING FAILURE"— Presentation transcript:

1 CAUSES OF BEARING FAILURE
Improper Lubrication - 43% How Much, How Often, What Type, What Thickness, What Properties are Important Improper Mounting - 27% Alignment, Work Area, General Practices, Inventory Control and Storage of Bearings Other Lubrication Causes - 21% Separation in Storage Temperature Limit Exceeded Moisture Contamination Other Contamination Fatigue - 9% Ultimate L10 Life Expectancy 64% of Bearing Failures are Lubrication Related IS Not The Whole Story In the Industry We Serve, Most Bearings Fail Due To Some Form of CORROSION

2 INDUSTRIES SERVED

3 INDUSTRIES SERVED

4 EFFECT OF MOISTURE ON BEARING LIFE

5 WATER WASHOUT RESISTANCE ASTM D1264 (DIN 51807)
Water, 80oC (175oF) Grease Packed Bearings % Weight Loss of Grease Measured Typical Grease (Lithium) - 5% Water Resistant Grease <2% Exceptional < 0.5%

6 WATER CONTAMINATION REDUCES BEARING LIFE SIGNIFICANTLY
90 80 70 60 50 40 30 20 10 0.002 3.0 6.0 % WATER IN OIL % REDUCTION IN FATIGUE LIFE 48 78 83 Mobil Oil evaluation on bearing fatigue life 0.002% water reduces fatigue life 48% 6.0% water reduces fatigue life 83% 0.002% water is 1 drop of water in a quart of oil

7 FRETTED SHAFTS & SLEEVES
When shaft scoring occurs. A newly installed Lip Seal riding in same location on shaft will leak. Water penetrates the bearing immediately…in all cases corrosion is RAPID and Bearing Life is reduced ^30K^ Contacts Here

8 Fretted Shafts & Sleeves
When shaft scoring occurs. A newly installed Lip Seal riding in same location on shaft will leak. A SpediSleve Seal is often used. While an improvement, the seal eventually fails, water penetrates the bearing immediately…in all cases corrosion is RAPID and Bearing Life is reduced ^30K^ Contacts Here

9 Numerous Self-Fretting Bearing Seals Available
Some are just metallic shields as OEM ^30K^ Contacts Here

10 Conventional Bearing Lip Seals Testing Data
CIC Exhibit III CIC Exhibit IV NATIONAL Hours to Failure MEDIAN RANK ( % Failure) CR WAVESEAL . 182 188 275 300 556 648 772 902 1264 1366 6.7 16.32 25.94 35.57 45.19 54.81 64.43 74.06 83.68 93.30 144 576 1343 1736 1763 1973 1979 2946 2982 3003 Percent Failure vs. Hours to Leakage % FAILURE 100 80 60 40 20 1000 2000 3000 4000 TIME HOURS TO FAILURE NATIONAL CR (57 Days) (125 Days) CR (Mean Life 1844 hours) NATIONAL (Mean Life 645 hours) REPRINT FROM A CR INDUSTRIES REPORT

11 CORROSION PROTECTION Salt Fog Performance - ASTM B117
Film Thickness

12 BALL AND ROLLER BEARING LUBRICATION (OIL AND GREASES)

13 BALL AND ROLLER BEARING LUBRICATION (OIL AND GREASES)

14 615 HIGH TEMPERATURE GREASE
Very High Dropping Point, 300oC ( 570oF) Temperature Range - 40oC to 204oC (- 40oF to 400oF) Excellent Shear Resistance Excellent Shock Load and Wear Properties Very High Timken O.K. Load 29 kg (65 lbs.) Good Compatibility with Popular Greases Very High Water Washout Resistance, Below 1.6% Loss Extreme Water Tolerance (Add 30% Water and Still Get 20 kg (45 lbs.) Timken) Excellent Corrosion Resistance Highest Rating Possible for Automotive Bearing and Chassis Lubrication, NLGI GC-LB

15 615 HTG #1 “Best in Class” Extreme Pressure Properties and Antiwear Characteristics Exceptional Corrosion Protection Excellent Oxidation Resistance, Long Grease Life Excellent Resistance to Water Washout and Contamination Easily Pumpable, Good in Central Lubrication Systems Shear Stability and Grease Performance Maintained Over Wide Temperature Range Measurably Longer Bearing Life Temperature Range - 40oC to 204oC (- 40oF to 400oF)

16 General Rule of Thumb on Where to Use 615 # 1 Vs. the Standard 615:
615 HTG #1 General Rule of Thumb on Where to Use 615 # 1 Vs. the Standard 615: Where Operating Speeds are Higher Where Average Operating Temperatures are Lower When Customer Wants to Use in Automatic Lubrication System See Pocket Guide for Reference on Specific Operating Conditions

17 TEMPERATURE EFFECT ON GREASE LIFETIME
“ Most Mineral-Oil-Based Greases (of Adequate Dropping Point) Will Operate Successfully to About 121oC (250oF). A Smaller Number Can Handle 150oC (300oF). A Few Mineral-Oil-Based Greases Can Operate to About 177oC (350oF).” Relubrication Intervals - Rolling Element Bearings, 8 hours per Day 82oC (180oF) Months 104oC (220oF) Months 149oC (300oF) Month 193oC (380oF) Week 238oC (460oF) Day Source: NLGI, Lubricating Grease Guide

18 LUBRI-CUP® Demand Feed System - Patented Metering System, Slowly Feeds Grease Only as Needed Prevents Over or Under Filling of Bearings Eliminates Cause of Over 40% of Bearing Failures Low Feed Pressure Prevents Bearing Seal Failure Time Interval for Relubrication Increased by 6x Reduces Labor Cost to Regrease by Over 80% Can Be Mounted at Any Angle Transparent Grease Reservoir - Easy to See Grease Level Easy to Refill in Place

19 REFILLING THE LUBRI-CUP®
Refilling Lubri-Cup® with 615

20 BEARING LIFE EXTENSION with LUBRICUP and 615 GREASE

21 615 HTG – Vibration Analysis Dryer Fan, Horizontal Bearing, Paper Mill
10.000 7.500 5.000 2.5000 20/10/99 14/11/99 09/12/99 03/01/00 28/01/00 615 HTG APPLIED Vibration, Khz MPM Multiparamater Receiver, Wilcoxon Model 782A Sensor

22 615 Additive Plating Technology
615 smoothes out surface roughness, reduces wear and vibration. Extends bearing life.

23 615 Additive Plating Technology

24 615 HTG – Technology Overview
Chesterton's 615 is formulated using a surplus of Lubricity, EP and Anti-Wear additives, blended into a highly refined G III base oil, and thickened with a metallic organo-sulfonate complex. The resulting grease is "Best in Class" with respect to EP, Lubricity, Corrosion & Water Resistance. Unlike conventional Aluminum, Calcium, & Lithium soap and complexed thickeners, Chesterton 615 is immune to hydrolysis or water breakdown. The grease remains functional even in heavy water contaminated bearings and equipment. Chesterton's 615, with QBT (Quiet Bearing Technology) uses state of the art tribological technology to reduce vibration and ultra-sonic bearing noise. Proprietary polar and non-polar additives and thickener chemically fuse to the metal surfaces filling in asperities to form a "wear shield" on the metal surfaces. This fusion of lubricating additives and thickeners to the molecular surface of the metal, protects the bearings from WEAR, PRESSURE and WATER CORROSION.


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