Customization: | Available |
---|---|
After-sales Service: | 6 Months |
Warranty: | 6 Months |
Still deciding? Get samples of US$ 2200/Piece
Order Sample
|
Shipping Cost: | Contact the supplier about freight and estimated delivery time. |
---|
Payment Methods: |
|
---|---|
Support payments in USD |
Secure payments: | Every payment you make on Made-in-China.com is protected by the platform. |
---|
Refund policy: | Claim a refund if your order doesn't ship, is missing, or arrives with product issues. |
---|
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
Product Overview:
Our Wear Resistant Carbide Plate 6mm 10mm 16mm 20mm Thickness Wear Plate are designed for superior impact and wear resistance, offering optimal protection for chutes used in mining and material handling operations. Made from durable, high-strength tungsten carbide materials and bonded using advanced vacuum brazing technology, these liners significantly extend the service life of your equipment, reduce maintenance costs, and improve production efficiency.
Whether used for ore transfer, crusher hoppers, or conveyor systems, our liners provide long-term reliable protection under extreme operating conditions, reducing downtime and maximizing operational efficiency.
Product Advantages:
Superior Wear Resistance: Our liners are manufactured from high-hardness and high-strength tungsten carbide materials that offer excellent wear resistance in abrasive environments, greatly reducing the need for frequent replacements.
High Impact Resistance: Specifically engineered to withstand heavy material impact, our liners protect chutes and material handling systems, ensuring long-term stable operation.
Long Service Life: With vacuum brazing technology, the liners are securely bonded to their base, preventing detachment and extending service life by more than 5 times compared to conventional liners.
Reduced Maintenance Costs: The high wear resistance and impact resistance of the liners extend replacement intervals, reducing maintenance frequency and associated costs.
Easy Installation: Our liners are custom-made to fit your specific equipment, allowing for quick and easy installation, reducing downtime, and boosting productivity.
Application Areas:
Our mining chute liners are widely used in the following applications:
Technical Specifications of High Wear-Resistant Mining Chute Liners
Parameter | Details |
---|---|
Material | High-strength alloy |
Hardness | HRC 60-65 |
Thickness Options | Customizable (10mm, 20mm, 30mm, etc.) |
Operating Temperature | Suitable for high-temperature and high-pressure environments |
Bonding Technology | Vacuum brazing |
Lifespan | 36-60 months (depending on usage conditions) |
Impact Resistance | High impact resistance, designed for heavy-duty use |
Customization | Available upon request (custom sizes and shapes) |
Applicable Industries | Mining, Quarrying, Cement Plants, Steel Mills, etc. |
Installation and Maintenance:
Our mining chute liners are designed for easy installation, with no need for complex tools or procedures. Damaged liners can be quickly replaced, minimizing downtime. We recommend regular inspections of liner wear and prompt replacement based on wear levels to extend product life.
Service Life and Performance Comparison:
Compared to traditional rubber or standard steel liners, our high wear-resistant alloy chute liners provide significantly longer service life and superior wear resistance. Testing shows that with our liners, equipment downtime can be reduced by over 40%, with maintenance costs significantly lowered.
Customer Cases and Feedback:
We have successfully supplied high wear-resistant mining chute liners to several global mining projects, and customer feedback has been overwhelmingly positive. Below are some testimonials from satisfied clients:
After-Sales Service:
We offer a 12-month warranty on all products, along with professional technical support. Should you encounter any issues during use, our technical team is available to assist, ensuring your equipment remains in optimal operating condition.