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Pre-Engineered Advantages

Pre-Engineered steel buildings offer significant advantages over conventional structural steel buildings
The term “Pre-Engineered Steel Buildings” is not well known to the engineering groups who traditionally design their buildings with conventional structural steel using standard hot rolled sections from product manufacturers. The comparison below is intended to introduce and inform engineering design groups of the pre-engineered steel building concept, its high versatility and practicality, and its disadvantages to Designers and Contractors.The pre-engineered steel building concept is widely used in the United States, as well as in many of the industrialized countries. It consists of a complete steel-framed building system, with components pre-designed to fit together in a vast variety of combinations to meet the unique requirements of specific end uses. Sub-Systems include anchor bolts, structural framing, insulation, roof and wall cladding, mezzanines or floor including steel floor decking, windows, doors, ventilation systems, canopies, overhangs and fascias.Pre-engineered steel buildings can be used for permanent installations from around 400 square feet (36 square meters) upwards, for one story and two story construction.

Rigid Global Buildings, located in Houston, Texas, U.S.A. produces 45 million dollars in shipments annually, not only in American market but also in the global market.

Several major Contractors and Designers who previously used conventional design exclusively adopted the pre-engineered steel buildings formula and the savings have proven to be extremely high.

At Rigid Global Buildings, we design and we manufacture our steel buildings.

Please contact us for further technical discussions. We can make your job easier, and you can make your company more competitive.

The detailed comparison (shown below) between Conventional Structural Steel and Pre-Engineered Building Systems will give you a precise idea of the advantages of pre-engineered steel buildings.

Pre Engineered Steel Buildings Conventional Structural Steel Buildings
1) Design Criteria
AISC / MBMA / AWS
1) Design Criteria
AISC/ AWS/ JIS/ DIN/ BS
2) Design
Quick and efficient since standardization of pre-engineered steel buildings has significantly reduced design time. Basic designs are used over Specialized computer analysis and design programs reduce design time and optimize material required. Drafting is also computerized with minimal manual drawings. Design, detail drawings and erection drawings are supplied free of charge by the manufacturer. Approval drawings may be prepared within ten days to 3 weeks. Consultant in-house design and drafting design is significantly reduced, allowing more time for coordination and review, and increasing margins in design fee savings.
2) Design
Each conventional steel structure is designed from scratch by the consultant, with fewer design aids available to the Engineer. Maximum engineering required on every project. Generalized computer analysis programs require extensive input/output and design iterations. Drafting is manual or only partially automated.Much Consultant time and expense is devoted to design and drafting, as well as coordination and review.
3) Weight
About 30% lighter through the efficient use of steel. Primary framing members are designed with tapered built-up plate sections with the most steel in the areas of highest stress, using high strength steel.Secondary members are light gage cold formed “Z” or “C” shaped members. Members are roll-formed for minimum weight and labor cost.
3) Weight
Steel member sizes must be selected from standard hot rolled sections, which in many cases are heavier than what is actually required by design. Members are the same cross-section along the entire length, regardless of local stress magnitude¬† Secondary members are from standard hot rolled “I” and “C” sections. In many cases members are heavier than required, and therefore are not as economical as cold formed members.
4) Base Material
Rigid Building pre-engineered steel buildings system uses almost all steel to meet 50,000 P.S.l. minimum yield including the cladding.
4) Base Material
In most of the cases (90%) Base Material is 36,000 P.S.I. minimum yield.
5) Foundation
Simple design, easy to construct and lightweight.
5) Foundation
Extensive heavy foundation required.
6) Accessories (Windows, Doors, Ventilation)
Designed to fit the system, with standardized, interchangeable parts, including pre-designed flashing and trims.Mass produced for economy. All available with the building.
6) Accessories (Windows, Doors, Ventilation)
Every project requires special design for accessories and special sourcing for each.Flashing and trims must be uniquely designed and fabricated.
7) Delivery
Approximately 8 weeks
7) Delivery
Average 5 to 6 months.
8) Erection
Easy, fast, step by step. Erection costs and time are accurately known, based upon extensive experience with similar buildings.
8) Erection
Slow, extensive field labor required. Typically 20% more expensive than pre-engineered steel buildingss
In most of the cases, the erection cost and time are not estimated accurately.
9) Architecture
Outstanding architectural design can be achieved at low cost. Conventional wall and fascia materials, such as concrete, masonry and wood, can be utilized.
9) Architecture
Special architectural design requires research and high cost.
10) Overall Price
Price per square meter may be as much as 40% lower than conventional steel.
10) Overall Price
High price per square meter.
11) Sourcing and Coordination
Building is supplied complete with cladding and all accessories, including erection if required, all from one source of supply.
11) Sourcing and Coordination
Many sources of supply. Project Management time required to co-ordinate suppliers and sub-contractors.
12) Changes
Very flexible, tailor made, accepts changes and revisions easily. Future expansion simple, easy and cost effective. One supplier to coordinate changes.
12) Changes
Changes, revisions and additions can be difficult due to extensive redesign and coordination among suppliers and subcontractors.
13) Responsibility
Single source of supply results in total responsibility for one supplier, including design liability.
13) Responsibility
Multiple responsibilities can result in questions of who is responsible when components do not fit properly, insufficient material is supplied, or materials fail to perform, particularly at supplier interfaces. The Consultant carries total design liability.
14) Performance
All components have been specified and designed specifically to act together as a system, for maximum efficiency, precise fitup, and performance in the field.The experience with similar buildings in actual field conditions world-wide has resulted in design improvements over time which allow dependable prediction of performance.
14) Performance
Components are designed in general for possible use in many alternative configurations. Design and detailing  errors are possible in assembling diverse components into unique buildings.Each building design is unique, so prediction of how components will perform together is uncertain. Materials which have performed well in some climates may not in other environments.
Rigid Global Buildings utilize state-of-the-art computer aided fabrication equipment and technology to assure customers of high-quality steel products at very competitive prices.