Have you ever wondered how metal buildings in East are put together or manufactured? The process is both complicated and precise. The manufacture of a metal building is an awesome combination of engineering, draftsmanship, ingenuity, teamwork, know-how and metal building manufacturing expertise. Each building receives the utmost care and attention throughout the manufacturing process, manufactured by experienced craftsmen and watched over by a dedicated staff of professionals from start to finish. Precision engineering, machinery and components plus exceptional quality control yield a precision high quality manufactured product.
Once a customer has purchased a pre-engineered metal building or metal building system, their sales person, who performs multiple functions of building consultant, building designer, technician and estimator, forwards the purchaser’s order to the steel building factory. In the top metal building factories, the factory itself fabricates all required building components in house. That way, all components are compatible and go together easily on the job site with no surprises and no waiting for components to arrive from different suppliers.
At the steel building factory, the order entry department oversees the order from start to finish, from the time the order is received until the steel building is shipped. Steel building factory staff verifies all design codes, snow and wind loads and seismic information to make sure that everything complies with the purchaser’s contract and enters the order into scheduling software to ensure that the buildings manufacture is efficiently managed.
How does one elect the best metal building to use in East based on all the factors to consider?
Contrary to popular thinking, the building construction industry does not only revolve around brick, mortar, steel and hard labor. Compared to the yesteryears of construction, the role of technology cannot be denied — it is essential in developing and enhancing the building sector to ensure processes are sped up, communication improved and efficiency is maximized.
To better illustrate the positive impact of technology on construction, let’s look at this scenario. In the 1940’s, 30 weeks is the shortest time that a new homeowner is able to move into his new detached, two-storey house. The speed in which the same house can be built is increased significantly over the years, and by the time the 1980’s arrive, houses can be built in as little as eight weeks. Today, with advancements such as prefab technologies, families are able to live in their dream homes upon completion of construction in a little over a month.
No significant efficiencies leveraged?
The integration of information technology paved the way for every industry to thrive and maximize productivity, but the construction sector has yet to see notable product gains. Stanford University researchers discovered that the impact of technology on construction of buildings is not as strong or consistent compared to impacts on say, manufacturing, for example. In manufacturing, the implementation of a particular technology within a process usually carries through and all products after that are produced using that same technology, or at least until improvements are made.
This is not quite true when it comes to ensuring the same brand of efficiency and consistency in the field of construction. Where the process flow in manufacturing is consistent, the construction sector adopts a “one-off” nature of construction. In other words, a construction process using a particular type of technology may or may not carry over to the next project. Each project is considered a prototype, and is to start from scratch. Back to square one, as some may observe.
This is probably due to project teams not remaining consistent throughout the project.
Understandably, project teams rarely remain the same when each project begins, but the issue may lie within project leaders as those with authority do not generally exercise efforts to continue systematic innovations throughout their practices. In a nutshell, people do not feel the need to share valuable knowledge and procedures.
Some ways to ensure significant efficiencies are leveraged include:
· Ensure standardization in documentation
· Aim to increase consistent technology adoption
· Leaders need to step in and take charge with wise and informed decision-making
· Integrate project structures across all projects
· Encourage open information sharing
· Increase frequency of project team meeting and discussion
Positive impacts of technology and innovations on building construction
When implemented wisely, these technologies can and will meaningfully improve the construction industry. They include:
Pre-fabrication is the practice of assembling building components (be it walls or floors) off-site and then transporting the semi-finished components to be assembled where the building foundation is located. Think of it as “snap-on” technology if you will, but compared to traditional methods, this pre-assembly technique brings on to the construction sector:
- Time savings of 15-20%
- Increased cost efficiency
- Less energy and material wastage
- Ensure safety of construction
- Decreased pollution (less noise and dust) when components are assembled in a controlled environment
- Cameras placed on-site lets building owners view the ongoing process without actually travelling to the site.
- VOIP technology provides means for cost-effective communication back and forth
- Web-based project management systems allow seamless project collaboration and administrative activities between all parties involved — this increases productivity and accuracy while reducing cycle time.
- Strategic social media networking practices can help construction companies increase awareness, sales leads and generally bring on previously-unleveraged avenues of profits.
3. GPS System
Machines employing the use of GPS can perform tasks accurately without being told what to do, and when or where to do it. More importantly, it alleviates risks especially if there are rookie operators in the cockpit.
The Impact of Technology on The Construction of Metal Buildings
Using steel as a primary building material is a choice that is growing in popularity among companies and residents with a need for additional space. Steel, an iron-carbon alloy, is used for a wide range of purposes ranging from heavy industry to the household, and is practical for many applications. Steel buildings have various advantages over the more traditional wood and concrete structures, and the benefits range from the relative ease of construction all the way to environmental issues.
The durability, flexibility and strength of steel make it an attractive option for many different types of buildings. In the past, steel buildings were mostly associated with impersonal storage structures such as warehouses, silos or aircraft hangars. It is not uncommon to encounter a church, retail outlet, sports arena or office building that is primarily constructed of steel. New options in exterior finishes and facades mean that steel structures need no longer look like a barn or a hangar. Steel is still a great choice for buildings that have a lot of clearspan space, meaning the roof is supported by bordering walls and framework, not internal columns, but that is no longer the only option.
Because its pieces are prefabricated and engineering to be assembled easily, a steel structure requires less specialized labour in its assembly, and the whole building process can be completed in less time. A steel building can become productive more quickly than a wood or concrete structure. In the long run, steel results in lowered repair costs due to its durability. Though steel's main enemy is rust and corrosion, technological developments in metallic and organic coatings can ensure that the structure will stand the test of time. Once a steel building has run through its life cycle, the steel inside can be recycled into other products. In fact, steel is one of the most recycled elements in the world. The construction of a steel building can be achieved more quietly and cleanly than those involving wood or concrete structures. Steel buildings also permit the use of more glass on the exterior of the building, which brings in more light and reduces the building's overall energy consumption. The increased natural light is also a benefit for the occupants of steel buildings, as it makes the typical office or work environment more pleasant.
The ability to build an entire building with reused materials goes a long way toward the conservation and sustainability that so many people talk about these days. The average person may not think of steel as environmentally friendly, but when used in buildings, its ability to be recycled, reduced energy use, clean construction process and longer life span mean that steel as a building material means less environmental impact and increased conservation.
One more advantage of a future steel buildings is its strength and flexibility during natural disasters. Many areas of the world that experience earthquakes, tsunamis and hurricanes would greatly benefit if a good portion of the structures were made from steel. A collapsed wooden or concrete structure is often the cause of fatalities and injuries. Stronger, more flexible steel buildings would be able to withstand much of the pressure that topples traditional structures, and save lives in the process.