Prefabricated Steel Structure

Prefabricated structures are buildings or components manufactured off-site in standardized sections, then transported and assembled at the construction site..

Prefabricated structures can be made from a variety of materials including steel, concrete, wood, and composite materials, depending on the specific application and requirements.

Prefabricated structures are used in a wide range of applications including residential housing, commercial buildings, industrial facilities, educational institutions, healthcare facilities, and more.

Prefabricated structures are designed to be durable and structurally sound, meeting or exceeding standard building codes and regulations. They can withstand various environmental conditions and are often engineered for long-term use.

The lifespan of prefabricated structures can vary depending on factors such as materials used, quality of construction, maintenance practices, and environmental conditions. However, properly designed and maintained prefabricated structures can have a lifespan comparable to traditional site-built structures

Yes, prefabricated structures are often cost-effective due to reduced construction time, labor costs, and potential savings in material waste. They can also offer long-term operational savings through energy efficiency and maintenance benefits.

Prefabricated components are typically transported to the site using trucks or shipping containers and assembled using cranes and other equipment. Installation durations can vary based on the scale and intricacy of the structure being assembled.

A Pre-Engineered Building (PEB) is a structure designed and fabricated using a systematic approach where all components are pre-designed to fit together easily during construction.

Pre-engineered buildings are typically constructed using primary structural frames made of steel and secondary components such as roof and wall panels, which can be made from steel, aluminum, or other materials.

PEBs offer advantages such as faster construction times, cost-efficiency due to reduced labor and material waste, design flexibility for customization, and ease of expansion or modification.

PEBs are used across various sectors including industrial facilities, warehouses, commercial buildings, agricultural structures, sports complexes, and aircraft hangars.

PEBs are engineered to be durable and structurally sound, capable of withstanding harsh weather conditions and meeting relevant building codes and standards.

Yes, Pre-Engineered Buildings can be customized in terms of size, shape, design features, and finishes to meet specific project requirements and aesthetic preferences.

The lifespan of a PEB can vary depending on factors such as maintenance practices, environmental conditions, and the quality of materials used. However, they are designed to have a long service life comparable to traditional buildings.

PEB components are manufactured off-site and transported to the construction site for assembly. Installation involves erecting the primary structural frames and assembling secondary components like roof and wall panels using cranes and other equipment.

PEBs can contribute to environmental sustainability by reducing construction waste, optimizing energy efficiency through design features like insulation and daylighting, and supporting green building certifications.

PEBs are often cost-effective due to shorter construction timelines, reduced labor costs, and minimal material waste. They can also provide long-term operational savings through energy efficiency and maintenance benefits