Hard Wearing Steel Plate makes superior hardness to toughness ratio. Arco Wear Plate is liquid-quenched and tempered and through-hardened. Hardox Steel is with excellent abrasion resistance and high impact resistance and Hardox Plate provides maximum wear resistance from impact and sliding.. The outstanding wear characteristics of HP Abrasion Resistant Plates can be attributed to the balanced chemistry and very fine distribution of Chromium, Boron, Titanium and Molybdenum. The resulting carbides reinforce the plate structure and provide uniform through-hardness. Quick View On Product 1. Product Name: HP Chromium Carbide Overlay Wear Plate 2. Body Material: A36 Mild Steel + Chromium Carbide Overlay (Hardfacing) 3. Grade: HP700, HP700S, HP750X, HP750P Standard Specifications of HP Wear Plate : Packing & Delivery of Wear Plate Packing Way: By Steel Tube, By Steel Belt, By Steel Pallet Delivery Time: 20 days after order confirmation Anti-abrasion Comparison_HP Plate vs Other Plate Company Information HP Plate (Huifeng Wear Resistant Industry Co., Ltd.) was founded in 1994, as the former Taiwan's Upking-Kurimoto Ltd., led by president Mr. Zhang Kun-Mou, using the world-famous Japanese KURIMOTO hardfacing welding patented technology & welding materials produced by Vautid GmbH. HP Plate has become the most experienced expert specializing in production and sales of wear resistant products. HP Wear Products Range: HP Wear Product Applications Cement Plant, Mining Site, Steel Mill, Power Generation, Glass Industry, Dredging, Surgar Industy, Quarry, Construction, etc...where need to be anti-abrasion. HP Factory Laboratory Company ISO Certificates: FAQ On HP Wear Products Question: Can I cut or drill a hole in an HP overlay plate? Answer: No. The chromium-carbide layer is not drillable or machineable. When necessary, you may be able to cut it with plasma, waterjet, or arc-gouging. Question: Is it normal to see cracking in hardfacing plating? Answer: It depends on the hardfacing alloy. Many chromium carbide alloys check-crack when cooled to moderate temperatures; this is normal. Other alloys, such as the austenitic and martensitic, do not crack when applied properly. Check cracking can be seen as cracking perpendicular to the bead length. This occurs by the high stress that is experienced when the weld metal cools. The cracking stops at the parent metal underneath, as long as the parent metal is not brittle. If the parent metal is hard or brittle, you should choose a buffer layer of a softer, and tougher, weld metal. Question: What are the most popular applications with hardfacing products? Answer: The typical applications include Mining Site, Steel Mill, Cement Industry, Power Generation, Glass Industry, Construction, Dredging, Oilsand, etc where need to fight with abrasion and impact. Question: What metals can be protected with hardfacing? Answer: Carbon and low-alloy steels with carbon contents of less than 1 percent can be hardfaced. High-carbon alloys may require a special buffer layer. Some of the base metals that can be hardfaced include: stainless steels, manganese steels, cast irons and steels, nickel-base alloys, copper-base alloys. Question: What is hardfacing? Answer: Hardfacing is also known as hardsurfacing. It is the process of adding wear-resistant weld metals to the surface of a metal part to protect it from wear and abrasion. Adding the weld metal plates can be achieved through welding or joining.
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