HUYI METAL
Email: candy@jshyalloy.com
HUYI METAL is the world's premier inventor, developer and producer of nickel and cobalt alloys, with a product portfolio of more than 100 alloy components, forging products and welding consumables, more than 80 percent of which were invented in our own laboratories. All of our alloys are designed to help redefine what is possible in the energy and industrial sectors.
Creating the World's High-Performance Alloys.
HUYI METAL is the world leader in the invention, production and supply of high-nickel alloys for critical engineering.
(Please contact us for standards and steel grades not mentioned)
Wide Product Range:Offering a comprehensive range of steel products, from structural steels, tool steels, stainless steels, to specialty grades, ensuring customers find what they need.
Quality Assurance:Implementing rigorous quality control processes and adhering to international standards to ensure the steel supplied is of the highest quality.
Competitive Pricing:Leveraging economies of scale, efficient processes, and strategic partnerships to provide competitive pricing to customers.
Experienced Staff:Possessing a knowledgeable and experienced team capable of providing expert advice, technical support, and solutions tailored to the client's requirements.
Fast Delivery: Having a well-stocked inventory and efficient logistics capabilities to ensure timely delivery, even for bulk or urgent orders.
Customization Capabilities:Offering services like cutting, bending, welding, or other fabrication processes tailored to customers' specific needs.
Sustainability:Adopting eco-friendly practices and ensuring that steel production and supply align with sustainability goals, reducing environmental impact.
Strong Supplier Relationships:Maintaining robust relationships with leading steel mills and manufacturers, ensuring consistent supply and access to the latest innovations in steel.
Technology Integration:Utilizing modern technology for inventory management, order processing, and customer communication to streamline operations and enhance the customer experience.
Global Reach: Having the infrastructure and network to supply steel products to customers across different regions or even internationally.
After-sales Support:Providing excellent after-sales service, addressing any concerns, and ensuring customer satisfaction long after the initial purchase.
Research & Development: Continually investing in R&D to understand market trends, new steel applications, and emerging technologies in the steel industry.
Training & Development:Regularly training staff to stay updated with the latest industry standards, technologies, and best practices.
Transparency: Keeping customers informed about pricing, product availability, delivery times, and any other factors that might affect their purchase decisions.
Safety Focus: Ensuring all operations prioritize safety, reducing risks for both employees and customers.
Building Frames: I-beams are widely used as major supports in building structures, including columns and beams in commercial and residential buildings.
Bridges: Serving as the main framework for bridge structures, providing the necessary strength to span wide distances.
Industrial Structures: Utilized as tracks for overhead cranes, framework for industrial machinery, and other large industrial structures.
Foundation Piles: I-beams are used as piles to transfer load to deeper, more stable soil or rock layers.
Railway Tracks: Employed in the construction of railway track supports.
Automotive and Aerospace: Part of the frame structures in the construction of trucks, trailers, and other heavy machinery.
The dimensions of an I-beam are defined by its height, flange width, web thickness, and weight per unit length. Typical dimensions include:
Height (H): The distance from the outside of the bottom flange to the outside of the top flange.
Flange Width (B): The width of the flanges, which run horizontally along the length of the beam.
Web Thickness (t_w): The thickness of the web, which is the vertical plate connecting the flanges.
Flange Thickness (t_f): The thickness of the flanges themselves.
For example, an I-beam designated as "W12x30" in the United States would have a nominal height of 12 inches and weigh approximately 30 pounds per foot.
Hot Rolling: The most common method for creating I-beams is by hot rolling steel at high temperatures. This process begins with a large billet of steel that is heated and then passed through a series of rolls to form the I-shape.
Cold Rolling: Some I-beams may be cold-rolled for tighter dimensional tolerances and a smoother surface finish.
Welding: For larger beams or those with a custom shape, steel plates may be cut and welded together.
Heat Treatment: Following rolling or welding, I-beams may undergo heat treatments to achieve specific mechanical properties.
Surface Treatment: I-beams are often treated with a protective coating or painted to prevent corrosion.
Cutting to Length: I-beams are typically produced in standard lengths but can be cut to size for specific projects.
Quality Control: Throughout the manufacturing process, I-beams are subjected to rigorous quality control checks to ensure they meet specified tolerances and material properties.
ASTM A36 I-Beam:
ASTM A36 I-Beam: