Carbon Steel Profile Suppliers
Manufacturer of custom metal profiles in a variety of finishes including anodized aluminum. Capabilities include bending, welding, press brake forming, shearing, cutting to length, slitting and coiling. Serves hardware, transportation, air conditioning, automotive and commercial industries. Meets ASTM standards.
You probably see high carbon steel on a daily basis, like the squeeze tabs holding your pants on the hanger or the metal clips holding chips at the gas station.
Brass Profiles
Brass is a copper-zinc alloy that can be used in various profiles to add a touch of sophistication and elegance to any space. It is also a durable material that can withstand abrasion and corrosion. Brass is easy to machine, and it can be shaped into a variety of shapes, such as tees, elbows, rings, curves, and other custom shapes. Profiles made of this metal can be plated in different finishes, including natural, chrome or nickel to further enhance their aesthetic value and durability.
Carbon steel is a material that is often used in construction projects because it is dependable and shock-resistant. It is also more affordable than some other materials. Carbon steel is not only durable, but it can be molded and formed into different shapes. It is also recyclable and environmentally friendly.
ISO 9001:2015 certified custom manufacturer of carbon, copper and aluminum bronze and lead-free brass metal profiles. Capabilities include metal forging, tube straightening and saw cutting. Also offers press brake forming, machining and slitting. Services are available for industrial, commercial, air conditioning, refrigeration, plumbing and transportation applications. Meets military, ASTM and AMS standards.
Aluminum Profiles
Within the industrial sector, a wide array of manufactured materials are galvanized steel coil utilized in various applications. One of these essential materials is aluminum profiles, offering support and stability in a variety of settings. These are crafted with diverse aluminum alloys, designed to meet customer specifications.
Using a technique known as extrusion, these profiles are created by forcing softened aluminum billets through a die that imparts the desired profile to the material. This process is conducted under controlled conditions to ensure accurate dimensions and minimal energy loss. The result is a profile that is lighter, stronger, and more flexible than steel.
These profiles can be produced in a variety of shapes, sizes, and finishes. They are available in hollow, solid, and open-end profiles. Hollow profiles contain a cross-section that is fully or partially enclosed, while solid profiles have no closed sections. Open-end profiles have both hollow and solid sections, while semi-enclosed profiles combine both types of profiles.
There are a variety of surface finishes offered, including mill finished and anodized. The former is the raw state of an aluminum profile when it comes off the die, while the latter features a layer of oxide on the material’s surface. The thickness of this oxide layer affects the material’s corrosion resistance and appearance. Anodized aluminum also features enhanced durability and strength.
Steel Profiles
Steel profiles are rolled or extruded from a variety of materials to fit industry-specific applications. These custom-shaped bars reduce labor costs, machine and tool expenditures, and overall material investment. They also feature tight dimensional tolerances and superior surface condition. This allows the manufacturer to produce accurate and efficient geometric shapes with minimal waste.
The use of standardised steel sections simplifies the engineering design process for architects and engineers. They are also cost-effective, providing long-term benefits compared to other framing alternatives. They are generally moisture, fire, and weather-resistant. This ensures that they remain intact and functional in the long-term, reducing the need for costly repairs and replacements.
To prevent corrosion, carbon structural steel is often coated with a protective layer. However, this coating can be vulnerable to damage, flaking or wear and tear. It is therefore important to consider the profile’s exposure when selecting a protective coating.
There are several methods used to fabricate carbon steel profiles, including cold rolling and hot rolling. The cold rolling method involves forming the metal using a rolling mill. This is a versatile technique that can be applied to all types of metals, including aluminium and stainless steel. In this process, the raw material is heated to temperatures above the melting point and deformed through a series of rolls. This results in the desired shape. Other methods include extrusion and continuous casting. In extrusion, a block-shaped raw material is heated and pushed through a die while it is slowly lowered. This produces a precise and consistent geometric shape with high tensile strength.
Metal Profiles
Metal profiles are products that have a specific shape. They are made out of a metal that has been rolled, drawn or pressed into the specific shape. They are usually used in concrete reinforcing and come in a variety of shapes that can be smooth or ribbed to increase the strength of the projects they are added to. They also come in many different sizes and can be custom manufactured for unique applications.
Metal alloy plates are available in a wide range of forms including angles, bars, channels, I beams, pipes, plate and Q215B Steel tubes. They can be found in a variety of grades and are used in the aerospace, automotive, petro-chemical and nuclear industries.
Steel plates are categorized into low, medium and high carbon steels depending on their carbon content. Low-carbon steels have a carbon content between 0.30 percent and 0.60 percent. These types of steels are often used in auto body parts, structural shapes such as I-beams and channel iron, and tin plates. Medium-carbon steels are more commonly used in rail tracks and locomotive wheels, and high-carbon steels have a carbon content of 0.60 percent or higher. These types of steels are used in gears, axles, shafts and other machinery parts that require high wear resistance and toughness.
Metal plate processing includes flame cutting, bending, forming, shearing and machining services. These processes are often complemented with additional post processing operations such as grinding, blanchard grinding, beveling and milling to create finished components that can be used for many different applications.