FABRICATION

TYPES OF FABRICATION

Fabrication involves constructing items from various parts using a range of materials such as metal, steel, aluminium, and other solid surfaces, and employing different processes. Common in metal fabrication, these processes include stamping, welding, cutting, bending, and assembling.

While fabrication can still be done manually, many processes are now automated through the use of computer-aided designs (CAD). These designs are often integrated with computer numerical control (CNC) technologies, allowing machines to perform precise tasks on the shop floor. This automation helps reduce lead times, costs, and material waste, while significantly improving accuracy and overall quality.

MILD STEEL FABRICATION

Mild steel fabrication involves the shaping and assembly of mild steel, a low-carbon alloy known for its flexibility, strength, and affordability. This material is widely used in construction, automotive, and manufacturing industries due to its excellent weldability and ability to withstand heavy loads. Mild steel can be easily cut, bent, welded, and formed into various shapes, making it ideal for structural components such as beams, frames, and brackets. Its malleability allows for customization in design, enabling fabricators to produce complex parts with precision.

Although mild steel is prone to corrosion, it can be treated with protective coatings such as galvanization or painting to enhance its durability. The versatility of mild steel makes it a popular choice for a wide range of applications, from large-scale infrastructure projects to smaller industrial and domestic uses. Its relatively low cost and availability also contribute to its widespread use in fabrication. Whether used in bridges, pipelines, machinery, or general construction, mild steel remains a staple material for fabricators seeking a balance between strength, ease of use, and cost-effectiveness.

STAINLESS STEEL FABRICATION

Stainless steel fabrication involves working with stainless steel, an alloy renowned for its corrosion resistance, strength, and sleek appearance. It is commonly used in industries where hygiene, durability, and aesthetic appeal are paramount, such as in food processing, pharmaceuticals, and architecture. Stainless steel’s high resistance to rust and corrosion makes it ideal for environments exposed to moisture or harsh chemicals. Fabricators use processes such as cutting, welding, bending, and polishing to create a wide range of products, from kitchen appliances and medical equipment to structural components in buildings and bridges.

One of the key advantages of stainless steel is its low maintenance requirements and long lifespan, which make it a cost-effective material in the long run despite its higher initial cost compared to mild steel. Its strength-to-weight ratio and ability to withstand extreme temperatures add to its appeal in demanding applications like marine, aerospace, and chemical processing industries. Stainless steel also offers a polished, clean look, making it a popular choice for architectural projects that require both functionality and a modern aesthetic. With its combination of strength, durability, and aesthetic versatility, stainless steel remains a top material for fabrication in numerous fields.

Fabrication Works