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Product Element
| Properties | ||||
| Grade | Typical Hardness (HBW) | Thickness (mm) | Width (mm) | Length (mm) |
| AR400 | 370-430 | 3-120 | 500-2500 | 500-12000 |
| AR450 | 420-480 | |||
| AR500 | ≥470 | |||
| AR550 | ≥530 | |||
Product Applications
| Industry | Application |
| Mining | Feed chute liners, bin liner, cyclones, hoppers, conveyor systems, truck bed & bucket liners, dozer blades. |
| Cement | Screen plates, mill liner, storage bins, piping systems, separator fans, chutes, classifier cones, outlet ducts. |
| Steel | Fan blade &housings, coke vibrating screen plates, pelletizing plants, sinter screens, coke screens, feed bins, distribution chutes, blast furnace armor plates. |
| Power generation | Coal transfer systems, screens, classifiers, silos, bunkers, fans, chutes. |
| Waste handling | Cutting edges, blades, knives of crushers |
| For more in-depth information on application, please contact us. | |
FAQs
Q: How is the wear resistance of AR steel plate realized?
A: The wear resistance of AR steel plate is mainly due to its special alloy composition and heat treatment process. By adding the right amount of alloying elements and conducting a rigorous heat treatment process, the hardness and wear resistance of the steel plate can be significantly increased to meet the demands of high-impact and moderate-wear application scenarios.
Q: What do I need to pay attention to during the processing of AR steel plates?
A: When processing AR steel plates, you need to pay attention to selecting appropriate processing equipment and tools to avoid processing difficulties or equipment damage caused by excessive hardness. At the same time, the processing sequence and process flow need to be reasonably arranged to ensure processing accuracy and surface quality. In addition, attention needs to be paid to cooling and lubrication measures during processing to reduce processing temperature and wear.
Q: How to assess the wear resistance of AR steel plate?
A: Evaluating the wear resistance of AR steel plates can be done in a variety of ways, including laboratory wear tests, field application tests, and user feedback. Laboratory wear tests can simulate wear under different conditions to evaluate the wear resistance of the steel plate; field application tests can verify the performance of the steel plate in the actual use environment; and user feedback can help to understand the strengths and weaknesses of the steel plate and the direction of improvement from the actual application.
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Product Application
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