Building Skyscrapers

<p>The design and building of skyscrapers is done with security and habitability in mind&period; These tall buildings need to be able to support their own weight&comma; and they also need a great degree of resistance to wind&comma; fire&comma; and earthquakes while remaining comfortable and accessible&period; Design and construction of skyscrapers is challenging because engineering&comma; financial and managerial considerations need to be balanced&period;<br &sol;>&NewLine;Because of the size and occupancy levels of these tall buildings&comma; structural design is of high importance&period; Wind tunnels and other tests are done before construction to minimize the chance of structural failure&period; Wind is of particular concern&comma; as its pressure increases along with the building’s height&period;<br &sol;>&NewLine;The larger and taller a skyscraper is&comma; the larger its infrastructure should be&period; Most skyscrapers are built to maximize available floor space&comma; so shear walls and other support systems like steel frames are used&period; Reinforced concrete is vital in a tall building’s construction&semi; supports are made by pouring concrete around steel rebar&comma; and they’re resistant to tension and compression&period;<br &sol;>&NewLine;The outside of a skyscraper can be sheathed in a variety of materials such as aluminum&comma; stainless steel&comma; masonry&comma; or glass&period; Every tall building has an elevator system—it’s not feasible to expect hundreds of people to use the stairs&period; Elevators aren’t just for convenience&semi; they’re an integral part of the building’s structure&period; Their shafts consume a lot of space&comma; and structural engineers must strike a delicate balance between efficient use of space and transportation needs&period;<br &sol;>&NewLine;Every skyscraper’s design is unique&comma; and because of that their models undergo extensive testing in laboratories&period; Each construction is different&comma; but follows a few general steps&colon;<&sol;p>&NewLine;<ul>&NewLine;<li>A properly-located&comma; clear and stable piece of land is found&period;<&sol;li>&NewLine;<li>The soil is dug down to the bedrock for support&semi; it could be two hundred feet deep or even more&period;<&sol;li>&NewLine;<li>Footings are placed at the bottom of that hole &lpar;usually on bedrock&rpar;&period;<&sol;li>&NewLine;<li>Concrete is typically poured<&sol;li>&NewLine;<li>Vertical supports are built and placed with cranes<&sol;li>&NewLine;<li>Horizontal girders are placed and secured<&sol;li>&NewLine;<li>Outside walls are built<&sol;li>&NewLine;<li>The finishing work is done<&sol;li>&NewLine;<&sol;ul>&NewLine;<p>Since engineers figured out that small plots of land could be used to their fullest potential by stacking one floor on top of another&comma; buildings have been getting taller and taller&period; As building heights grow&comma; construction materials and methods change&comma; and those buildings become more efficient&period; Skyscrapers are a fixture in all of the world’s largest cities&comma; and they’re likely to evolve even more as construction methods do&period;<&sol;p>&NewLine;<h5>Featured images&colon;<&sol;h5>&NewLine;<ul>&NewLine;<li> <span class&equals;"license">License&colon; Creative Commons<&sol;span> <span class&equals;"source">image source<&sol;span><&sol;li>&NewLine;<&sol;ul>&NewLine;<p>This guest post was written and contributed by Crispin Jones on behalf of Westermans International&colon; suppliers of industrial welding equipment including welding rotators and seam welding machines&period; Find out more here or read more from Westermans here&period;<br &sol;>&NewLine;Photo&colon; 4nitsirk<&sol;p>&NewLine;