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sales@sattvaengineering.com
We are a Premier Manufacturer of Pre-Engineered Buildings, Offering the Lowest Cost Per Square Foot in India. Our PEB Structure Include Framing Members, Columns and Rafters, Roof Purlins, Eave Struts, Wall Girts, and Roofing Sheets, Concrete Foundation, Erection, Crane Etc.
The Pre-engineered Buildings are widely popular for their Advantages such as Cost-effectiveness and ease of assembling on-site PEB versatility in various industrial and commercial applications. However, one critical aspect that significantly impacts the performance and comfort of these structures is insulation. PEB is not only for Structure insulation it also covers a comfortable indoor environment, reduces energy costs, and prolongs the lifespan of the building.
In structural engineering, a Pre-Engineered Building (PEB) is designed by a PEB Building supplier or manufacturer using a standardized design that can be fabricated with various materials and methods to meet a wide range of structural and aesthetic requirements. This approach differs from buildings that are constructed based on a design created specifically for that PEB Structure. In some regions and industries, pre-engineered buildings are also referred to as Pre-Engineered metal Buildings (PEMB) or, due to the reduced amount of pre-engineering involved in custom computer-aided designs, simply as engineered metal buildings (EMB).
Do you know the PEB Building is one of the most important factors in the construction industry because it's very cost-effective compared to other construction industries PEBs are a type of construction where building components are designed and fabricated in a factory, then transported to the PEB Construction site for final assembly. This is different from traditional construction do you know why the need for PEB is because pre-engineered buildings play a major role in Energy efficiency, Temperature control, Sound quality, Condensation
Energy efficiency can help reduce power costs and save money. For example, steel buildings can reflect sunlight, which can reduce the need for air conditioning and Temperature control of a building stable by preventing heat transfer through walls, roofs, ceilings, and vents or Sound quality of PEB Construction can reduce noise levels by absorbing sound and preventing it from travelling in and out of the building. This can be especially beneficial in businesses with loud machinery and prevent condensation from building up on the roof and walls of a building, which can cause water to drip inside.
The right insulation material for a pre-engineered structure depends on various factors including material quality and test PEB Building material depending on the PEB Structure application budget, and specific performance requirements Each of these insulation materials offers unique benefits that can contribute to the energy efficiency Do you know which is the best PEb material? Polyurethane foam A cost-effective, less polluting material that can block air leakage and insulate efficiently.
Innovative installation techniques can dramatically enhance productivity, reduce costs, and ensure the longevity of systems and structures. Its classification in various parts such as Modular PEB Construction and 3D Printing, Advanced Robotics and Automation, Drone-Assisted Installations and more.
Modular construction involves prefabricating sections of a building or structure off-site and then assembling them on-site. this technician helped to reduce construction time and labor costs. We get the best advantages such as Speed PEB Construction times being up to 50% faster compared to traditional methods and Quality Control and Reduced Waste and 3D printing, or additive manufacturing, is revolutionizing the way components and even entire structures are built. This technology allows for the creation of complex, custom designs we get the advantage of 3D printing Customization of design and bespoke designs can be easily created. Material Efficiency Uses only the necessary amount
robotics and automation in installation processes is growing rapidly. These technologies improve precision and reduce human error and Robotics and Automation help to PEB Building Safety Reduce the need for human workers and Speed Robots can operate continuously and Drones are increasingly used in construction and infrastructure projects for site surveys, inspections, and even installations.
Proper insulation is a vital investment for any pre-engineered building, offering numerous benefits that enhance comfort, efficiency, and sustainability. By choosing the right insulation materials and ensuring they are properly installed, building owners can enjoy significant cost savings, improved building performance, and a more comfortable indoor environment. Whether for industrial, commercial, or residential applications, the advantages of proper insulation are clear and far-reaching.
The future of prefabricated buildings is promising, driven by the increasing demand for cost-effective and energy-efficient construction solutions. With ongoing technological advancements, prefabricated buildings are expected to become even more customizable, efficient, and economical. In summary, prefabricated buildings offer a smart solution for those seeking fast, energy-efficient, and cost-effective construction options. Their numerous benefits, including quick installation, high energy efficiency, reduced construction waste, and customizable designs, position prefabricated buildings as a leading choice in the future of construction.
Primary Framing:
Columns: Vertical structural members that support the roof and transfer loads to the foundation.
Rafters: Horizontal beams that support the roof structure and distribute loads to the columns.
Secondary Framing:
-Purlins: Horizontal beams placed on the roof to support roofing sheets and transfer loads to the rafters.
-Girts: Horizontal beams on the walls that support wall panels and transfer loads to the columns.
-Eave Struts: Horizontal members at the eave of the building that support the roof and wall panels.
Roof and Wall Panels:
Roof Sheets: Metal sheets or other materials that form the roof covering.
Wall Sheets: Metal sheets or other materials that form the wall covering.
Bracing Systems:
-Rod Bracing: Rods used to provide lateral stability to the structure.
-Cable Bracing: Cables used to stabilize the building against wind and seismic forces.
Fasteners and Bolts: High-strength bolts, screws, and other fasteners used to connect various components.
Flashing and Trim: Metal pieces used to seal and protect joints and edges from water infiltration.
Insulation: Materials used to insulate the building for energy efficiency and thermal comfort.
Doors and Windows: Various types of doors and windows integrated into the building design.
Accessories:
-Ventilators: Systems for ventilation and air circulation.
-Skylights: Transparent or translucent panels for natural lighting.
-Louvers: Shutter-like devices for ventilation and air flow control.
-Foundation and Anchor Bolts: The base structure that anchors the building to the ground and provides stability.
CLEAR SPAN (CS) – This type of frame is the most preferred and widely used worldwide. It offer clear access to loading and stacking function within the shed. As the pillars or columns are coming at both ends, it gives a very spacious and airy look to the entire shed. We can design these sheds for a width of upto 150 meters. However the water discharge from these types of frames is on both sides of the shed as this is a TWO SLOPE frame.
MULTI SPAN (MS) – This type of frame is most suitable for clients who want a wide shed but do not necessarily want it to be clear span because it gives us the economy of Two Sloped Structure and the columns in between distributes the load and thus reduces the weight of the structure. It is the most economical form of frame for large span buildings. The water discharge is however done from the two side of the slope.
SINGLE SLOPE (SS) – This type of frames are the preferred choice when clients wants or has restriction to drain water of both sides of the shed. It is also chosen by clients in case their existing sheds require an expansion in width but is not designed to support the load of a lean to shed. In case these sheds are very wide then is becomes economical to make the same in Multispan
MULTI GABLE (MG) – This type of frame is the used in case of wide shed but are more economical than the Multi Span frame type. It is lighter because the trusses are smaller hence economical but it comes with a rider that it may has a water discharge in the center of the shed which would require an internal drainage line, which is not preferred in most of the industries where water ingress during unplanned excess rains lead to losses.
LEAN TO (LT) – This type of frame is the most preferred type, for sheds requiring an expansion along the width. It requires the original shed to be designed such that it is able to take the load of the expanded shed along with the new shed. Lean to sheds are designed to match the roof slope of the existing shed such that the water is discharged out of the shed.
This type of structural concept is primarily used for constructing commercial spaces. Pre-engineered buildings (PEBs) have a wide range of applications, including:
Factories and industrial buildings, Small manufacturing units, Warehouses and storage units, Small retail buildings, Commercial office buildings, Labor camps, Petrol pumps/service buildings, Schools, Community centers, Sports halls (indoors and outdoors), Living shelters, Workshops, Gas stations, Showrooms, Gymnasiums, Aircraft hangars, Metro stations, Outdoor stadium canopies, Vehicle parking sheds, Indoor stadium roofs, Bridges and railway platform shelters
We Supply Pre-Engineered Buildings (PEBs) to Andhra Pradesh, Arunachal Pradesh, Assam, Bihar, Chhattisgarh, Goa, Gujarat, Haryana, Himachal Pradesh, Jammu and Kashmir, Jharkhand, Karnataka, Kerala, Madhya Pradesh, Maharashtra, Manipur, Meghalaya, Mizoram, Nagaland, Odisha, Punjab, Rajasthan, Sikkim, Tamil Nadu, Telangana, Tripura, Uttar Pradesh, Uttarakhand, West Bengal, Mumbai, Navi Mumbai, Pune, Nashik, Nagpur, Solapur, Kolhapur, Ambernath, Ahmednagar, Latur, Ahmadabad, Surat, Rajkot, Vadodara, Panaji, Madgaon, Chennai, Kolkata, Hyderabad, Bengaluru, Delhi, New Delhi, Ludhiana, Chandigarh, Raipur, Bhopal, Jamshedpur, Vishakhapatnam, Cochin, Ghaziabad, Noida, Gurugram, Bhillai, Durgapur, Vijayawada, Kanpur etc.
We Export Pre-Engineered Buildings (PEBs) to Saudi Arabia, Iran, Iraq, United Arab Emirates, Qatar, Bahrain, Oman, Kuwait, Turkey, Egypt, Yemen, Syria, Israel, Jordan, Cyprus, Singapore, Malaysia, Indonesia, Thailand, Vietnam, South Korea, Japan, Sri Lanka, Maldives, Bangladesh, Mayanmar, Taiwan, Cambodia, Argentina, Bolivia, Brazil, Chile, Venezuela, Colombia, Ecuador, Guyana, Paraguay, Uruguay, United States Of America, Canada, Mexico, Panama, Costa Rica, Puerto Rica, Trinidad And Tobago, Jamaica, Bahamas, Denmark, Russia, Norway, Germany, France, Italy, United Kingdom, Spain, Ukraine, Netherland, Belgium, Greece, Czech Republic, Portugal, Hungary, Albania, Austria, Switzerland, Slovakia, Finland, Ireland, Croatia, Slovenia, Malta, Nigeria, Algeria, Angola, South Africa, Libya, Egypt, Sudan, Equatorial Guinea, The Republic of Congo, Gabon, Europe, Africa, Asia, North America, South America, Middle East, Far East etc.