In graphite grinding plants, cyclones and dust ducts suffer severe abrasive wear from high-speed graphite dust and particle flow. Wear liners (rubber, polyurethane, ceramic, cast basalt, or wear-resistant steel) protect the base metal from erosion, prevent dust leakage, and avoid system blockages. Below is a step-by-step inspection and repair procedure tailored to abrasive dust service, with safety and graphite-process specific requirements.
1. Pre-Work Safety & Preparation
1.1 Safety Lockout (LOTO)
- Shut down the cyclone, duct fan, dust collector, and upstream grinding equipment; lock and tag all power and air sources.
- Ventilate the workshop for 15–20 minutes to reduce residual graphite dust concentration.
- Wear full PPE: anti-static overalls, dust respirator, safety helmet, cut-resistant gloves, and steel-toe boots.
- Prohibit dry sweeping or compressed air blowing during inspection (avoids dust cloud explosion risk).
1.2 Tools Required
- Ultrasonic thickness gauge, tapping hammer, flashlight/explosion-proof lamp
- Wear repair materials: ceramic patches, polyurethane repair compound, rubber lining adhesive, wear-resistant putty
- Measuring tape, marker, grinding tool, sealing compound, torque wrench
- Digital camera for recording wear locations
2. Inspection of Wear Liners
2.1 Key Wear Zones (High-Failure Areas)
These areas suffer the strongest particle impact and scouring—focus inspection here first:
| Component | Critical Wear Zones |
|---|---|
| Cyclones | Inlet section, cone lower section, vortex finder (overflow pipe), underflow spout, apex |
| Ducts | Elbows/bends, tees, reducers/expanders, feeder connection points, duct bottom surface |
2.2 Inspection Methods & Acceptance Standards
1) Visual Inspection
- Check for cracks, peeling, blistering, holes, or exposure of base metal (immediate repair required if found).
- Look for graphite dust buildup behind liners (indicates liner detachment or gaps).
- Check for dust leakage at flanges and liner joints (sign of severe wear or poor sealing).
2) Tap Test (Quick Detachment Check)
- Tap the liner surface with a rubber hammer:
- Clear, crisp sound: liner is well-bonded
- Hollow/muffled sound: liner is detached, bulged, or hollowed (must repair/replace)
3) Thickness Measurement (Quantitative Inspection)
- Use an ultrasonic thickness gauge to measure liner thickness at 10–15 points per component.
- Scrap/Repair Threshold:
- Rubber/PU liners: wear loss ≥ 50% of original thickness
- Ceramic/cast basalt liners: thickness loss ≥ 30% or chipping > 10 mm
- Wear-resistant steel liners: thickness loss ≥ 40%
4) Inspection Frequency
- Daily: Visual check for dust leakage and obvious damage
- Weekly: Tap test for liner detachment
- Monthly: Full thickness measurement and detailed inspection
- Quarterly: Comprehensive disassembly inspection for cyclone apex and duct elbows
3. Repair of Wear Liners
Choose repair methods based on wear severity and liner material (common in graphite plants: rubber, PU, ceramic, wear steel).
3.1 Minor Wear Repair (Small Cracks, Thin Spots, Small Chipping)
Suitable for damage area < 10% of total liner surface
- Clean the worn area with a wet cloth to remove graphite dust and grease (no dry grinding).
- Roughen the surface slightly to improve adhesion.
- Apply wear-resistant repair compound / polyurethane patch to fill gaps or cover thin areas.
- Smooth the surface and cure for 4–12 hours (per product instructions) before restarting.
3.2 Moderate Wear Repair (Partial Peeling, Medium-Sized Holes)
- Cut and remove the damaged liner section completely.
- Clean the base metal surface and apply primer adhesive.
- Install a pre-cut replacement liner patch (matching original material and thickness).
- Seal edges with high-temperature sealant to prevent dust penetration.
- Clamp or bolt the patch firmly and cure fully.
3.3 Severe Wear Repair (Full Peeling, Large Holes, Base Metal Exposure)
- Remove all worn/damaged liners and clean rust/oxide from the base metal.
- Install full new liner sheets (ceramic tiles recommended for high-wear zones like cyclone inlets).
- For cyclones: ensure the cone liner has no steps or gaps (avoids material buildup and blockages).
- For ducts: maintain smooth inner walls to keep air velocity ≥ 12–16 m/s (prevents graphite dust deposition).
- Torque all bolts evenly and seal all joints to eliminate dust leakage.
3.4 Replacement of High-Wear Components
- Cyclone apex/underflow spout: replace every 6–12 months (most worn part)
- Duct elbows: replace liners every 8–12 months
- Use ceramic-lined composite bends for long service life in graphite dust service
4. Post-Repair Inspection & Commissioning
- Check liner smoothness, adhesion, and sealing (no gaps or protrusions).
- Test run the dust collection system for 10–15 minutes to check for:
- Dust leakage at flanges/liner joints
- Abnormal airflow or pressure drop
- Unusual vibration from uneven liners
- Verify duct air velocity and cyclone pressure drop return to normal levels.
- Record repair location, material used, thickness, and date for traceability.
5. Prolong Liner Service Life (Graphite Plant Special Tips)
- Maintain duct air velocity ≥ 12 m/s to reduce particle impact wear.
- Avoid sudden airflow changes that increase erosion.
- Use anti-static liners to prevent graphite dust adhesion and static buildup.
- Regularly clean graphite dust deposits on liner surfaces (wet cleaning only).
- Align cyclone inlets and ducts to reduce turbulent scouring.