CASE STUDY | Tackling High-Impact and High-Abrasion Raw Coal Conveying
Date: December 12, 2025 | Client: A Large Coal Mine in China
Summary: From 4-Month Wear-Through to 6 Months with Only 1mm+ Loss
A major Chinese coal mine struggled with the rapid failure of the raw coal chute floor in its main transport system, which handled 500 T/h of highly abrasive and high-impact raw coal. The conventional 16mm thick Manganese Steel Plate wore through completely in just 4 months, posing significant safety and continuity risks. HIGHCR introduced its revolutionary 6+6 Chromium Carbide Overlay (CCO) Plate solution, which not only extended the service life to 6 months (a 50% increase) but also resulted in a minimal wear depth of just 1mm+, completely eliminating the risk of wear-through downtime.
I. The Client’s Pain Point: Rapid Failure Under High Load
This coal mine is a crucial national energy base, making transport efficiency and equipment safety vital priorities. The raw coal chute, transitioning material from the crusher to the main belt conveyor, was a severe bottleneck due to its rapid wear rate.
| Performance Bottleneck of Conventional Mn Steel Plate | Key Data |
| Application | Raw Coal Chute Floor |
| Throughput | 500 Metric Tons/hour (High Impact, High Abrasion Raw Coal) |
| Original Material | 16mm thick Standard Manganese Steel Plate |
| Failure Cycle | Worn through and scrapped after only 4 months |
| Risk & Cost | Frequent downtime for emergency replacement, safety hazards, high maintenance costs |
Failure Diagnosis: Single Material Failure Against Compound Wear
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Mechanism: The 500 T/h raw coal contains large quantities of gangue (waste rock), quartz particles, and mudstone, sliding through the chute at high velocity and high impact angles.
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Challenge: Traditional Manganese Steel, while tough against impact, lacks the surface hardness to resist the continuous micro-cutting of quartz and gangue, leading to a rapid, linear wear progression and eventual perforation.
II. HIGHCR Solution: The Ultra-Hard Protection of the 6+6 CCO Plate
HIGHCR recommended its HIGHCR 6+6 Chromium Carbide Overlay Plate, specifically engineered for high-abrasion and medium-to-low impact applications. This solution perfectly integrates extreme surface hardness with good base plate toughness.
Core Technical Advantage: Synergistic Action of Two Layers
| Component | Structure | Material and Function |
| Overlay Layer | 6mm thick | Chromium Carbide (CrC) weld overlay. This layer, with hardness reaching 58-62 HRC, features densely distributed M7C3 carbide crystals, forming an ultra-hard protective grid that perfectly resists the abrasion from quartz and gangue in the raw coal. |
| Base Plate | 6mm thick | Mild/High-Toughness Steel Base Plate. Provides excellent toughness, weldability, and structural support, absorbing the impact energy of the raw coal and preventing overall brittle failure or cracking. |
| Model | HIGHCR 6+6 | 12mm total thickness, offering a lightweight design with superior wear resistance. |
Technical Value:
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Hardness Leap: The CCO layer’s hardness significantly exceeds that of Manganese Steel (approx. 18-22 HRC), drastically reducing the wear rate.
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Safety Assurance: The presence of the base plate ensures structural integrity even as the overlay wears, completely eliminating the sudden risk of wear-through and catastrophic failures.
III. Performance and Economic Benefits: 50% Life Extension and “Zero Penetration”
The implementation of the HIGHCR 6+6 CCO plate dramatically improved the coal mine’s chute efficiency and maintenance cost structure.
Key Performance Outcomes
| Performance Metric | Original 16mm Manganese Steel | HIGHCR 6+6 CCO Plate | Percentage Improvement |
| Failure Cycle | Worn through after 4 months | After 6 months | 50% Extension |
| Wear Depth | 16mm completely worn through | Only $\approx 1 \text{ mm}$ wear (on 6mm overlay) | Near-Zero Wear (relative to total thickness) |
| Replacement Frequency | 3 times annually | $\approx 2 \text{ times annually}$ | 33% Reduction |
Operational Benefit Analysis
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Extended Replacement Cycle: Stable extension of the chute replacement interval to 6 months, significantly streamlining maintenance planning.
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Safety & Reliability: Total elimination of sudden wear-through risks, which previously caused raw coal spillage and unplanned downtime.
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Cost Efficiency: While the initial material cost is higher, the 50% life extension and reduced downtime result in a significant decrease in Annual Total Cost of Ownership (TCO).
Client Testimonial
“The performance of HIGHCR’s 6+6 CCO plate exceeded our expectations. The wear depth after 6 months of high-volume conveying was minimal, indicating a service life far exceeding those 6 months. Most importantly, we have entirely eliminated the need for emergency repairs to wear-through failures that plagued us every 4 months, ensuring the safe and efficient operation of the mine.”
HIGHCR is committed to providing safer and more economical conveying system solutions for the energy and mining sectors through high-performance overlay technology.
