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8/6E-AH Slurry Pump Bearing Grease Selection and Filling Quantity: More Is Not Better
Release time:
2026-04-15
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Abstract
8/6E-AH Slurry Pump Bearing Grease Selection and Filling Quantity: More Is Not Better
Subtitle: Lithium grease 2#/3# selection basis, filling quantity calculation, and over‑greasing hazard analysis – with field operation guidelines
Introduction
The 8/6E-AH is a classic model in the AH series (200mm discharge, 150mm inlet), widely used in mill discharge, cyclone feed, and tailings transport. Its bearing assembly withstands high radial and axial loads, and lubrication quality directly determines bearing life, pump reliability, and maintenance costs.
Two common field mistakes exist: either never adding grease (bearings run dry and burn out) or believing “more is better” – over‑greasing causes overheating, grease carbonization, and seal damage. As a professional slurry pump manufacturer, this article covers grease selection, filling quantity calculation, over‑greasing hazards, and field operation procedures for 8/6E-AH pump bearings.
1. Why Lithium Grease 2#/3# Is Recommended for 8/6E-AH
The 8/6E-AH slurry pump bearing assembly uses grease lubrication. AH series horizontal slurry pumps recommend lithium grease 2# or 3#. Key advantages:
| Property | Description |
|---|---|
| Water resistance | Resists water washout, suitable for slurry pump environments |
| Mechanical stability | Resists softening under high shear, ideal for heavy‑duty rolling bearings |
| Temperature range | Dropping point ~180-200°C, operates from -20°C to 120°C |
| Wear protection | Contains EP additives for high radial loads |
2# vs. 3#: 2# is softer (penetration 265-295), suitable for normal duty and centralized systems. 3# is harder (penetration 220-250), recommended for high‑temperature, heavy‑load, high‑vibration conditions. For continuous mine and mill operation, 3# lithium grease is preferred.
2. Bearing Grease Filling Quantity Standard: More Is Not Better
For 8/6E-AH grease‑lubricated bearing assemblies, refer to the manufacturer’s standard table-1.
2.1 Standard Filling Quantity by Bracket Type
| Bracket Type | Drive End (g) | Pump End (g) | Application |
|---|---|---|---|
| B | 30 | 30 | Small bracket |
| C | 50 | 50 | Small bracket |
| D | 100 | 100 | Medium bracket |
| E | 200 | 200 | Medium bracket |
| F | 500 | 500 | Large bracket |
| G | 1150 | 1150 | Extra‑large bracket |
| R, RS | 200 | 400 | Heavy bracket (larger pump end) |
| S, ST | 500 | 1000 | Heavy bracket |
| T, TU | 1150 | 2300 | Ultra‑heavy bracket |
2.2 Calculation Formula (When Manufacturer Data Unavailable)
Initial filling: Q = 0.01 × d × B
Where d = bearing bore (mm), B = bearing width (mm); result in grams.
Relubrication quantity: Q = 0.005 × d × B (approx. 50% of initial fill).
2.3 Bearing Cavity Volume Method
For open bearings, fill 1/3 to 1/2 of cavity volume – 1/3 for high speed, 1/2 for low speed-20. 8/6E-AH operates at 800-1200 rpm (medium speed), recommend 40%-50% of cavity volume.
3. Five Hazards of Over‑Greasing
Many maintenance personnel believe “more is safer” – this is a dangerous misconception. Over‑greasing causes more hidden damage than under‑greasing.
| Hazard | Mechanism | Consequence |
|---|---|---|
| Bearing overheating | Excess grease churns inside cavity, increasing drag and friction | Temperature >75°C, accelerated oxidation-36 |
| Grease oxidation | High temperature accelerates base oil separation, grease hardens | Loss of lubrication, vicious cycle-40 |
| Seal damage | Excess grease pushes past seals | Dust and moisture ingress |
| Increased energy consumption | Churning resistance consumes extra power | Higher motor current, increased electricity cost |
| Poor new grease integration | Old grease occupies cavity, new grease cannot distribute | Localized overheating, sudden temperature rise-40 |
⚠️ Warning: If bearing temperature spikes sharply (>10°C) after greasing, check for over‑greasing first – do not blindly add more grease.
4. Hazards of Under‑Greasing
Under‑greasing is equally dangerous.
| Hazard | Mechanism | Consequence |
|---|---|---|
| Metal‑to‑metal contact | No oil film between rolling elements and raceways | Accelerated wear, surface spalling |
| Increased noise | Cyclic abnormal sound from bearing | Early failure indicator |
| Abnormal temperature rise | Dry friction generates excessive heat | Bearing seizure-20 |
Normal condition: Bearing operating temperature stable at 60-70°C, no abnormal noise, no grease leakage at seals.
5. Field Greasing Procedure
5.1 Relubrication Frequency
| Condition | Frequency |
|---|---|
| Normal continuous operation | Every 500-800 hours |
| High‑temperature or high‑load | Every 200-400 hours |
| New or overhauled bearings | Check after 100 hours, top up if needed |
5.2 Procedure
| Step | Action | Key Points |
|---|---|---|
| ① Clean grease fitting | Remove dust and debris around fitting | Prevent contaminants from entering cavity |
| ② Verify grease type | Confirm lithium grease 2# or 3# | Never mix different brands/types |
| ③ Inject slowly | Use grease gun, inject in stages | Avoid air pockets and excessive pressure |
| ④ Run & observe | Run pump for 30 minutes after greasing | Check bearing temperature (≤75°C)-36 |
| ⑤ Record | Log date, quantity, temperature | Track abnormal consumption trends-20 |
5.3 Prohibited Actions
Never mix different brands or NLGI grades (chemical reaction may cause hardening)
Never grease while pump is running – grease during shutdown or slow barring
Never use degraded or contaminated grease
6. Bearing Temperature Troubleshooting Quick Guide
| Symptom | Priority Check | Possible Cause | Action |
|---|---|---|---|
| Temperature >75°C, grease liquefied | Over‑greasing | Excess grease | Remove excess, refill to standard |
| Temperature high + abnormal noise | Under‑greasing | Insufficient or dried grease | Add to standard; if dried, clean and replace |
| Sudden spike (+15°C) | New grease integration | Incompatible or injected too fast | Stop, inspect, clean cavity |
| Normal temp but grease black | Grease degradation | High‑temperature oxidation or contamination | Completely replace grease |
Conclusion
For 8/6E-AH slurry pump bearing grease selection and filling, the key principle is “right grease, right quantity.” More is not better – over‑greasing causes overheating, carbonization, and seal damage, actually shortening bearing life. Following the selection standard (lithium grease 2#/3#) and filling quantity guidelines (by bracket type or bearing bore calculation), and strictly adhering to field procedures, will significantly extend bearing life and reduce maintenance costs.
As a professional slurry pump manufacturer, we recommend maintaining a bearing lubrication log, recording each grease addition, and promptly investigating any temperature abnormalities. For on‑site lubrication diagnostics or grease selection advice, please contact our technical team.
Key words:
8/6E-AH slurry pump, bearing grease selection, lithium grease, grease filling quantity, slurry pump bearing maintenance, bearing overheating causes, over‑greasing hazards, 8/6E-AH maintenance, slurry pump manufacturer, bearing lubrication standard
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