These are long skinny pieces of metal in construction known as engineered I Beams. They function to reinforce buildings considerably stronger and secure. This guide covers everything there is to know about Engineered I Beams including how they are made and their applications, as well as addressing the query behind why builders and architects find them so useful.
I Beams engineered consist of two separate components that are joined together. Part one is called the 'flange. It is a long, flat part that protrudes off the side. The second element is referred to as the web. The web is just the skinny part that links the two flanges. When combined, the parts create a geometric shape that is incredibly strong and acts to help support large forces acting in tension.
Even engineered I Beams are fairly adaptable. They have this flexibility which allows to create things in the building which are curved and interesting shapes. They are applied in construction works as roofs, walls or floors. Besides, they are even used to construct bridges or other massive buildings where strength is a must, for example, Engineered I Beams.
The great benefit of Engineered I Beams are that they have many different shapes and sizes. This gives architect and builder the option to select optimal beams for various kinds of structures. No wonder Engineered I Beams are ideal for all kinds of construction projects ranging from a grand commercial structure to a humble family house. They are also appropriate for outdoor structures like bridges, which must be extremely robust.
Today Engineering I Beams are taking the earth by a storm. The buildings they are erecting are taller, stronger and safer than ever! This is significant because it enables architects and designers to incorporate different shapes that weren't feasible before. They help to build solid and stable buildings using less material with these beams. It helps speed up and reduce costs of construction projects.
Engineered I Beams have an added advantage, they prevent the buildings from getting damaged during high winds blowing and during other natural disasters like an earthquake. Buildings with Engineered I Beams possess the strength and resilience to stand up against forces able to cause damage to ordinary buildings. With this, builders are now able to actually build structures in areas that were previously deemed too dangerous. As a result, due to Engineered I Beams, architects and builders can design buildings which are taller in size and safer for everyone.
It's really cool how Engineered I Beams are actually processed. They are manufactured through a process known as "cold-forming." This process takes place without the use of heat, which is also why it is more convenient to handle. Once the metal is formed, it is then cut to length and the flanges are welded to the web. This welding process ensures that all the parts are firmly attached.
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