In the context of today's times, we are committed to developing green Bimetal Hardfacing Wear Plate, Wear Alumina Ceramic Lining Tile, Wear Resistant Bimetal Carbide Plates in order to seize the market opportunities. Our team concept is to make the company an army-like execution, school-like learning, and family-like happy and harmonious working environment. Our company affirms the personal value of employees and believes that everyone should be respected and treated fairly.
Description:
Hardfacing wear resistant bimetal plates are engineered with high-quality materials and advanced process technologies. These plates are designed to withstand extreme abrasion and wear caused by harsh working conditions in industries like mining, steel, cement, and construction. Hardfacing wear resistant bimetal plates are made by combining two or more materials with different physical and chemical properties. The hardfacing material is applied to the base plate using welding methods to create a durable, wear-resistant surface. This process increases the lifespan of equipment and reduces maintenance costs. Additionally, these plates are lightweight, versatile and easy to install. Hardfacing wear resistant bimetal plate is a game-changer for industries that rely on heavy-duty equipment to get the job done, providing a longer-lasting and more cost-effective solution.
Specification:
Brand Name:Qishuai
Model Number:
QS 3+3,QS 4+4,QS 6+6, etc
Type:Steel Plate
Technique:Hardfacing, open arc welding, submerged arc welding
Surface Treatment:hardfacing, cladding, coated, Chromium carbide overlay coated
Application:Mining, Steel, Cement, Power, Port, Glass, Coal, Sugar, etc.
Special Use:Wear Resistant Steel
Width:1400mm, customized
Length:customized
Product Name:Hardfacing wear resistant bimetal plate
Material:Q235/Q345+Chromium carbide overlay
Base metal:Q235/Q345
Wear resistance:High wear abrasion resistance
Chemical composition:C: 3.0-4.0% Cr:18-32%
Hardness:HRC55-62
Flatness tolerance:±3mm/m
Impact resistance:Medium
Advantages:
Hardfacing wear resistant bimetal plate is a smart and practical solution for those who want to protect their equipment from wear and tear. The bimetallic composition of the plate helps to resist abrasion, corrosion, and impact damage, making it an excellent choice for various industrial applications. The plate is engineered with high strength steel backing and a welded overlay of abrasion-resistant alloy, resulting in exceptional durability and longevity.
One of the positive aspects of hardfacing wear resistant bimetal plate is that it allows equipment to operate longer under harsh conditions, increasing productivity and reducing downtime. It is perfect for use in mining, cement, and construction industries, as well as for manufacturing and handling abrasive materials. This plate also reduces the need for frequent repairs and replacements, which can save businesses a lot of money.
Moreover, the plate can contribute to a better working environment by minimizing noise and dust generated by equipment. It is environmentally friendly and safe to use, making it an ideal option for various industries. In conclusion, hardfacing wear resistant bimetal plate is a smart and cost-effective solution to protect equipment and enhance efficiency.
After Sale:
Our company has a professional after-sales service team, with many years of experience not only on hardfacing products and applications, but also on the operation of application equipment. We are able to quickly solve customer’s problems.If there are any quality problems, the responsible person will provide reasonable solutions within 12 hours after being notified.
We have ensured the quality of our 3-100mm Mn500 High Hardness Weldable Wear-Resistant Steel Plate 16mncr5 Alloy Structural Steel Plate with our excellent R&D technology coupled with perfect management system. We seize the market with products, create markets with services, and develop markets with brands. Through study and exploration, combined with the actual situation, we constantly improve our company management system.