Portable cabins: 5 benefits for your business

Portable cabins: 5 benefits for your business

Is working offsite the best option for your business? When you don’t have enough space, your projects can be difficult and stressful. For your business, a portable cabin could be a convenient and practical solution. Portable cabins offer so many benefits. Here are 5 important benefits to consider.

Portable cabins give you more space

Do you need more space for your projects? Portable cabins can be used if your business doesn’t have enough space. Expanding your office this way is quick and easy. You may want to consider portable office cabins if you want to give your employees more space and comfort. By using a portable construction, you can be more productive and more organized. It is possible to shop for porta cabins to find the construction that best suits your business needs.

The products are of high quality and can be customized

portable cabins

portable cabins

Portable cabins are made of high-quality materials and can last for many years. Your business needs and specific requirements can be met with the perfect construction regardless of the size of the office space you need. You can customize these top-notch buildings. Portable buildings can be customized with shelving, insulation, electricity, and other essential features. The construction of these portable buildings is also overseen by professional building inspectors. Building code compliance is monitored throughout the process.

Budget-friendly portable buildings

There is no need to worry about high capital costs if you want more space for your business. You can save money with portable buildings because they are budget-friendly. Portable office buildings are reasonably cheaper than permanent buildings. As well to portable kits, construction costs are also lower. As a result, these buildings are a smart investment. Your business can benefit financially from a building that has a great design and provides efficiency.

Relocating is easier for you

You can use portable buildings if you need to relocate your business. It does not matter how many times you relocate, you can simply transfer your portable building. It is possible to transfer your cabin without having to worry about high costs or damage.

Your business can benefit from them

portable security cabins

portable security cabins

Your business can benefit greatly from portable buildings. Your portable building can be included if you decide to sell your business in the future. Buildings like these are portable, so they can easily be transferred to a new owner.

You Need Speedy Portable Construction

As a result of these advantages, you might consider getting a portable office to facilitate your business operations. Finding the perfect location for your business doesn’t have to be a time-consuming process. You can save time and money by using portable cabins for your business. Are you looking for more tips? You can read more business news on our site if you’re interested.


Modular prefab construction’s rapid rise can be attributed to a number of factors

Modular prefab construction’s rapid rise can be attributed to a number of factors

Modular prefab construction is becoming increasingly popular in the infrastructure sector. Prefabrication technology is becoming increasingly popular with business owners because it enables rapid, cost-effective, and efficient construction. Modular construction is revolutionizing construction in the modern world. The popularity of modular prefabricated construction can be attributed to ten major advantages.

An easy-to-complete project.

Compared to traditional construction, prefabricated construction is typically 30 to 60% faster. A factory is constructing the building’s components while the foundation is being laid. A quick build time is achieved by installing modules one at a time.

 Constructing offsite

A modular prefab building‘s components are manufactured in a factory away from the construction site. Workers trained in their use place them on the jobsite once they arrive. An A major advantage of off-site construction is that it is not affected by weather delays. In this way, construction is of higher quality and less disruptive.

 No interruption of normal business operations.

Modular construction can greatly benefit building extensions. Due to the fact that construction takes place off-site, your day-to-day operations are not affected by construction-related disruptions.

 Sustainable in terms of the environment

It is common for traditional construction practices to result in a buildup of waste on the job site. Off-site modular construction differs from on-site construction. Pre-engineered modular buildings use steel as the primary material, which is environmentally friendly.

 Money-saving effectiveness

In Modular constructions save a lot of money in the long run. You can move your portable site office along with you if your business requires frequent relocations. Because of this, you don’t have to build offices at each location. Additionally, vendors may be able to design their own buildings, saving you money you would otherwise spend on an architect.


  1. Aesthetically pleasing.

It Modular buildings have been around for a long time. Over the years, they have evolved from the simple tin containers they once were. There are a lot of design options available to you these days. Modular buildings can be used to build anything from schools to shopping malls to office buildings that are both functional and attractive.

 Application versatility.

Another advantage of modular construction is its adaptability. An empty space in a modular building can be converted into anything you like – an office, kitchen, gymnasium, classroom, music room, etc.

 Integrity of the structure

To To ensure their longevity, prefabricated buildings are constructed with the strongest materials available. The modular buildings of today are built to withstand all kinds of weather. Fire-resistant materials, such as glass-wool panels, make buildings as safe as ever.

The prefabricated construction firm SAMAN has seen rapid growth in India. Our contribution covers an area of 7 million square feet of prefabrication. We also build modular site offices, security cabins, mobile testing labs, and labour accommodations, in addition to large industrial structures such as warehouses, factories, and sheds.


Pre-engineered Buildings (PEBs): Benefits

Pre-engineered Buildings (PEBs): Benefits

Pre-engineered buildings, or PEBs, are popular not only in the United States but around the world. According to market analysts, the PEB market will grow at a CAGR of 12% through 2020. Over the past decade, e-commerce and online retail sales have been driving growth in PEBs. It’s no surprise that digital purchasing continues to grow in both B2B and B2C. Storage and inventory space are needed by sellers. In addition, this increases the need for warehouses that can streamline product distribution.

The International Energy Conservation Code (IECC) updated its energy code in 2015, which New York State adopted in 2016, further pushing the need for energy-efficient buildings. To meet the strictest of energy codes, the PEB commercial industry has introduced roof and wall insulated metal panels with increased R-Values. IECC-certified design-build firms can work with owners to design more energy-efficient buildings while keeping costs down.

What are pre-engineered buildings?

Pre-engineered buildings are structures created by manufacturers and constructed using materials and fabrications that have been agreed upon in advance. Unlike conventional buildings, they can provide custom-built features and unique architectural designs more quickly and at a lower cost than a typical conventional building. In general, PEBs are low-rise buildings (typically two stories or less) used primarily for commercial purposes. Several commercial markets are served by PEB, including manufacturing, industrial, fitness centers, gyms, warehouses, hangars, agriculture, and many others.

How do pre-engineered buildings benefit you?

  • Cost-effectiveness is one of their advantages: An example of a cost-saving method is the use of a seam roof. Savings can be significant compared to membrane-style roofs. The cost savings from PEBs will vary depending on the scope of each project, though. A PEB can further reduce costs through the use of sheeting, but the main cost advantage lies in the roof. Consult with your architectural and construction firm to understand your local market and the conditions that may affect your choice of roofing system.
  • They offer time savings: Erection of a facility can be much faster and more efficient if materials and designs are pre-selected. It is also possible to save time by hiring a building company that can self-perform erection.
  • A variety of architectural options are available with them: The versatility of the design is further enhanced by the option of choosing from several wall panels. Depending on the owner’s needs, PEB designs roof systems and walls. Typically, PEBs use a standard seam roof, but an architectural firm that specializes in PEBs can work with you to customize and match a vision that fits your needs. It doesn’t have to be dull or cookie-cutter to be pre-engineered.

The structures are durable and of high quality

The PEBs are pre-fabricated in a controlled environment, ensuring durability and quality. If installed properly, pre-engineered roofs last longer than other roof systems. Clips are attached to the main steel to erect PEB roofs, which are then connected to the roof. During expansion and contraction, a machine seals the roof to the clips. The result is a durable roof to withstand even the harshest wind conditions. Fly-over videos of hurricane-devastated areas from the news in the past usually show metal roofs erected through this process that remain standing.

Low maintenance is one of their advantages.

Because of the quality built into the process and the raw materials used, PEBs maintain their appearance throughout their lives. Corrosion and rust are not problems for steel. The result is a foundation and structure that are virtually maintenance-free for longer than conventional buildings.

It is sustainable to use them.

Due to their recycled content, recyclability, and low life-cycle costs, PEBs are an ideal choice for incorporating sustainability and green construction into your next project.

Since 1976, VIP Structures has been constructing pre-engineered metal buildings in Upstate NY. The unique advantage of working with VIP is that we can integrate all phases of your building project. We assist you with your architectural, engineering, and construction needs. By using our in-house software, our team develops estimates that include different models, lengths, and widths of potential PEBs. Our experts examine all possible scenarios for your building project to recommend the most cost-efficient and structurally sound solution. To ensure your building meets your needs for many years to come, we ask the questions other design-build firms don’t ask. Do you have questions about your next building project? Feel free to contact us below.

What are pre engineered buildings made of?

What are pre engineered buildings made of?

Due to its inherent ductility and flexibility, steel is the material of choice for design. Rather than crushing and crumbling under extreme loads, it flexes. Building construction continues to use structural steel because of its strength, durability, design flexibility, adaptability, and recyclability. In construction management services, fast construction reduces overhead costs. Steel is extensively used in industrial buildings with long spans and cranes (medium and heavy buildings) where concrete construction is not feasible.


Pre-engineered buildings (PEBs) are designed by a manufacturer to be fabricated using predetermined raw materials and manufacturing methods so that they can meet a wide range of structural and aesthetic requirements. Using unique mastic beads, filler strips, and trims, pre-engineered steel buildings can be equipped with a variety of structural accessories, such as mezzanine floors, canopies, fascias, interior partitions, etc.

pre-engineered buildings

pre-engineering buildings

Building components are transported to the site in the knock-down condition in pre-engineered buildings. Up to 30% of the weight of a conventional steel building can be saved by designing a pre-engineered building efficiently. A lighter structure means less steel and savings in structural framework costs.

A hangar is a closed structure for storing aircraft or spacecraft in aviation. On airfields, aircraft, and ships, hangars protect aircraft from the weather, direct sunlight, maintenance, repair, manufacture, assembly, and storage. Building hangars requires special structures. The doors are too wide and span from 30 meters to 120 meters, enabling the aircraft to enter. As the size of the aircraft increases, a more complex structure is required. Thus, pre-engineered buildings are specially designed and engineered to meet the unique requirements of specific end-users.


In India, pre-engineered buildings (PEBs) are the latest trend. A PEB is a metal building with light gauge metal standing seam roof panels on steel purlins spanning between rigid frames and light gauge metal wall cladding. Construction time is drastically reduced. In addition, maintenance is extremely low. PEBs maximize resource utilization and technology utilization. In the past, Pre-engineering buildings are known for their durability, water resistance, and earthquake resistance. In addition to being highly versatile, PEBs are easy to set up, expand, modify, and transport. In addition to being environmentally friendly, they can also be aesthetically designed with unique features. As compared to conventional buildings, you can save 20-30%.

pre-engineered buildings in India

pre-engineered buildings in India

Compared to conventional steel structures, PEBs can be delivered to a site within 5 to 8 weeks. PEBs are up to 30% lighter than regular steel products due to the unique fabrication techniques used during fabrication. The construction site does not require welding or fabrication, which speeds up the process.


Over the past decade, there has been a steady increase in demand for construction works in the residential, commercial, institutional, industrial, and infrastructure sectors. Modern structures are much more complex and sophisticated compared to earlier periods. We are all noticing that the present structures are taller and thinner. Nowadays, structures need to be lighter without compromising functionality. Steel, concrete, and other construction materials have faced continuous economic competition in civil engineering construction.

pre-engineered buildings in India

Reinforced Cement Concrete Buildings

Reinforced concrete incorporates reinforcing bars to improve one or more properties of the concrete. In one form or another, it has been used as an economical construction material for many years. Construction of a structure using local materials and labor is a large part of its appeal worldwide. The basic constituent materials of cement, sand, aggregate, water, and reinforcing bars are widely available.

Steel Buildings

Today’s structural steel framing brings grace, art, and function together in almost limitless ways, providing new solutions and opportunities to create challenging structures, which were previously impossible and Unthinkable. Structures made of steel have reserve strength. Construction can proceed quickly from the start of erection due to the simple stick design in the steel framing.

Conventional Steel Buildings

The conventional steel building is conservative and consultant-driven. In conventional buildings, structural members are hot rolled. Materials are produced or manufactured in the plant and transported to the site. On-site, raw materials are processed and erected into the desired form. Modifications can be made during erection by cutting and welding. Conventional systems use truss systems.

Pre-Engineered Steel Buildings

It is the plant itself that manufactures or produces pre-engineered steel buildings. Structural members are manufactured based on customer specifications. Each structural member is designed for its particular location and is numbered, which cannot be changed since each member is manufactured according to its design features. Components are made modularly or knocked down for transportation. Materials are transported to the customer’s site and erected. A welding and cutting process is not performed at the customer’s site. A manufacturing process does not take place at the customer’s location.

Buildings with a ground floor, two intermediate floors, and a roof are the most common and economical types of low-rise buildings. Low-rise buildings may have flat or sloped roofs. A mezzanine system is used to construct the intermediate floors of low-rise buildings. It is easy to construct single-story houses for living in any geographical location, whether in a cold hilly location, a high rainfall prone area, a plain land area, or a hot climate zone.


  • Buildings are typically delivered within a few weeks after drawings are approved. Anchor bolts and foundation bolts are cast parallel to the finished surface, ready for site bolting. In India, pre-engineered buildings will reduce construction time by at least 50%. As a result, occupancy rates are higher and revenue is realized earlier.
  • The systems approach reduces design, manufacturing, and on-site erection costs. Secondary members and cladding nest together, reducing transportation costs.
  • Buildings can be easily expanded by adding additional bays. It is also possible to expand in width and height by pre-designing for future expansions.
  • A building can be supplied with a clear span of up to 80 meters.
  • As all buildings are manufactured in a factory under controlled conditions, quality is ensured.
  • High-quality paint systems are used for cladding and steel to match the ambient conditions at the site, resulting in long durability and low maintenance costs.
  • Buildings can be insulated with polyurethane insulated panels or fiberglass blankets to achieve the required U-value.
  • Versatility: Buildings can be supplied with different types of fascias, canopies, and curved eaves, as well as precast concrete panels, curtain walls, block walls, and other wall systems.
  • As the entire building package is supplied by a single vendor, all the building components and accessories are compatible. Pre-engineered building systems offer this benefit among many others.


Industrial, institutional, and commercial buildings are the most common uses of PEB.

India primarily uses pre-engineered building systems for warehouses, sheds, and industrial buildings. As a result, the focus has shifted to include rural and urban, individual and mass housing projects, farmhouses, slum re-organization, rehabilitation projects, health centers, kiosks, primary schools, panchayats, etc. PEB is also interested in offices, seminar halls, and Other functional requirements including call centers, supermarkets, showrooms, etc. For earthquake-resistant buildings, PEB has been widely and immediately accepted.

 Applications of Pre Engineered steel buildings include:-

  1. Houses & Living Shelters.
  2. Factories.
  3. Warehouses.
  4. Sports Halls (Indoor and Outdoor).
  5. Aircraft Hangers.
  6. Supermarkets.
  7. Workshops.
  8. Office Buildings.
  9. Labour Camps.
  10. Petrol Pumps/Service Buildings.
  11. Schools.
  12. Community centers.
  13. Railway Stations
  14. Equipment housing/shelters.

There is a great possibility of improving the aesthetic quality with a choice of roofing elements, exterior finishes, weather sheds, color systems, and variations in planning as well as massing.

The versatility of Porta cabins as prefabricated site offices

The versatility of Porta cabins as prefabricated site offices

Even if the change is the only constant, some things remain the same from one year to the next. Since the workforce continues to grow, additional officials will always be needed. Building a new office takes time, energy, and money, but if more space is needed, it must be done. Mobile offices were developed to reduce overhead costs for businesses.

For decades, modular buildings have been used in a variety of fields as offices. Personnel relocation is especially common in services requiring frequent relocations. A mobile online office is consistently preferred by these businesses over a stationary one. The reason for this should be obvious. In terms of price, they benefit, and their needs are met. Every project site would be economically unfeasible to establish a permanent office.

You can use porta cabins as prefab offices on site

It is possible to use a mobile office for more than one purpose. These can also be used as temporary vacation homes. Many companies use these rooms as temporary housing for their employees. It is common for workers to spend several hours in transit to reach the project site from the nearest major city. It is always helpful to have a place to stay temporarily during these times. There are several notable characteristics of these movable cottages, including:

Covered sandwich panels on the walls of mobile office cabins provide superior heat insulation. By reflecting outdoor heat into the area, these panels maintain a constant temperature. You’ll be able to work in a pleasant environment as a result. Porta cabins can be moved from one location to another. They can either be hauled in one piece by a truck or disassembled and brought in several pieces, depending on their size. After reaching the new location, these cabins can be easily reassembled. Only the panels and framework parts need to be joined.

Porta cabins are popular in the Indian Market due to their lower price and easily transportable

Because porta cabins are cheap, they are a competitive option. The structure is constructed elsewhere and then transported to its final resting place.

As a result, mobile offices are an excellent alternative to static locations. Additionally, they can be used as living quarters, dining halls, diagnostic laboratories, and more. Portable cabins have another advantage in that permanent construction is not always necessary.

SAMAN provides temporary workplace solutions in India. The structural components as well as the wall and roof panels are all made in-house.

Parts are shipped to the site, where they are installed and arranged. In business for 10 years, we have offices all over the country.

Concrete vs. Steel for Building Construction: A Brief Comparison

Concrete vs. Steel for Building Construction: A Brief Comparison

Romans created the first concrete mix in the third century BCE by combining water, volcanic dust, aggregate, and gypsum or lime. More than two centuries later, concrete has earned its place as a reliable architectural building material.

In contrast, steel was not widely used in building and construction until the mid-19th century because of its difficult manufacturing process. As new manufacturing methods were invented in the 1850s, steel quickly gained fame as a solid and sturdy structure product. During the next 150 years, steel’s appeal continued to grow, and today, along with concrete, it’s one of the most commonly used architectural materials.

Which of these materials is most suitable for your project?

Consider these factors when deciding whether to use concrete or steel for your project’s main construction material. They both deserve to be used as structural materials. Although concrete costs more, it probably offers much better overall performance. To determine which product is best for your task, you need to know how they differ in terms of durability, strength, fire resistance, sustainability, and also cost.

Pre-engineering buildings: Strength

The compressive strength of a product is its ability to withstand a crushing force. In a building, slabs, beams of light, columns, and structures can withstand vertical loads without sustaining damage.

When stretched, a product’s tensile toughness determines its resistance to failure. When a ton is placed on top of a light beam, its bottom is prevented from elongating or fracturing due to tensile strength.

Shear failure occurs when two unaligned pressures act upon a structure in different directions, usually during a quake or because of strong winds. A product’s sheer stamina refers to its ability to withstand this type of failure.

While concrete has excellent compressive strength, it is very weak and cracks easily when under tension. A tension-resistant product is embedded right into it to reinforce this weak point. Typically, these bars are steel, but composite options are also available.

The general toughness of enhanced concrete comes from the concrete’s compressive strength and the steel rebars’ tensile strength. The vertical bars running along the length of the architectural member are tied with shorter, perpendicular bars called stirrups that give the member its shear strength.
The tensile strength of steel is one of its best-selling features, but well-made steel structures can be as strong as reinforced concrete structures. To achieve adequate compressive, tensile, and shear strength in a steel framework, a sound structural design is essential.

Pre-engineering building is long-lasting

A material’s longevity describes its ability to weather its environment. If concrete and steel are fine-tuned to their setups, they can last for a very long time without deteriorating.

Reinforced concrete can withstand freeze-thaw cycles, chemicals, salt water, wetness, solar radiation, and abrasion when it is properly adjusted. Concrete does not struggle with vermin attacks since it is not natural. In addition, it does not burn or melt.

The same corrosion-prone steel support that makes enhanced concrete stronger hides a potential problem – its sturdiness. When rebar rusts, it loses its bond with concrete and develops iron oxide, which expands, resulting in tensile stresses and eventual deterioration. Concrete’s all-natural alkalinity reduces rebar corrosion, but seawater or large quantities of deicing salt may require more protection. This function is well served by epoxy-coated, stainless-steel, or composite rebar.

As with rebar, structural steel is susceptible to rust and requires additional protection. The use of paint, powder finishing, sacrificial layers, as well as deterioration hindering chemicals can all prevent corrosive damage to structural steel.

Fire Resistance

A reinforced concrete’s structure makes it essentially inert, and therefore fireproof, while its reduced heat transfer rate prevents fire from spreading.

However, both concrete and steel can lose their toughness when exposed to high temperatures for an extended period. At temperatures between 800°F and 1,200°F, concrete might lose its compressive strength depending on its aggregate type. Due to the shielding properties of lightweight concrete and poorer fire resistance, research indicates that lightweight concrete has the most effective fire resistance due to its shielding properties and poorer heat transfer rate.

Reinforced concrete is more fire resistant than architectural steel. At temperatures over 550 ° F, it begins to lose strength and keeps just 50% of its space temperature yield strength at 1,100 ° F. There are many ways to slow down the rate of temperature increase in structural steel. Among these are fire-resistive finishes, barriers, cooling systems, concrete coverings, and energetic procedures, such as sprinklers.



When used in construction, both concrete and steel provide environmental benefits. Approximately 85% of all steel consumed on the planet is recycled at some point. Considering the abundance of scrap steel and the ease of recycling, it makes sense. Aside from reducing the need for new resources, steel recycling consumes only a third of the power used during steel production.

In addition to its durability, concrete has a number of other advantages. Most of it originates from family members near the construction site, which reduces the amount of energy required for delivery. When it is demolished, it can be recycled into gravel, aggregate, or paving materials for road construction, disintegration control, landscaping, and marine coral reef repair, among other uses. New blends can be made from uncontaminated concrete.

Concrete recycling has many environmental benefits. The system helps keep debris out of landfills, reduces building waste, and replaces crushed rock and accumulations that would otherwise be mined and delivered.



Compared to architectural steel, enhanced concrete is often more expensive. Formwork and also rebar, concrete, and also ensuring that it cures effectively can account for a considerable portion of the complete cost of a project.

Despite this, concrete rates remain relatively steady. The cost of concrete products has increased steadily since 2000, and also this is a crucial factor to consider when valuing future tasks.

Insurance experts recognize concrete’s toughness, durability, as well as fire resistance despite its higher cost. On average, insurers provide concrete structures with higher safety ratings as well as lower premiums.

It is less expensive and faster to put up than concrete, but it has a longer lead time. Steel frameworks tend to have higher insurance premiums due to their lower fire resistance.

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