Steel structures are very reliable. The reasons for this reliability include consistency and uniformity in properties, better quality control because of factory manufacture, large elasticity, and ductility. If different specimens of some type of steel are tested in the laboratory for yield stress, ultimate strengths and elongations, the variation is much lesser then other materials like concrete and wood. Further, because of truly homogeneous and elastic material, steel satisfies most of the assumptions involved in the derivation of the analysis and design formulas and the results obtained and reliable. This may not be the case in concrete structures because of heterogeneous material, cracking and non-linearity of stress-strain relationship.
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Rolled steel sections are manufactured in factories. Also, the members may be cut and prepared for assembly in factories wile only joining of these components is carried out at the site by installing rivets or bolts and by welding different components. Sometimes parts of the structure are also assembled in the factories, that is, there is a great adaptation to prefabrication. Manual errors reduce greatly in such cases, the speed of construction increases and the total cost reduces.
Because of the industrial nature of steel construction. Progress of the work is fast making the structures economical. The reason is that these structures can be put to use earlier. The reduction in labor cost and overhead changes and the benefits obtained from the early use of the building contribute to the economy.
The high strength of steel per unit weight means that the dead loads will be smaller. It is to be noted that dead loads are a bigger part of the total loads on structure. When dead load reduces, the underneath members become still smaller due to less weight acting on them. This fact is of great importance for long-span bridges, tall building, and for structures having poor foundation conditions.
Steel is a very homogeneous and uniform material. Hence, it satisfies the basic assumptions of most of the analysis and design formulas. If properly maintained by painting, etc. the properties of steel do not change appreciably with time; whereas, the properties of concrete in a reinforced concrete structure are considerably modified with time. Hence, steel structures are more durable.
Steel behaves closer to design assumption than most of the other material because it follows Hookes law up to fairly high stresses. The stress produced remains proportional to the strain applied oft the stress-strain diagram remains a straight line. The steel sections do not crack or tear before ultimate load and hence the moments of inertia of a steel structure can be definitely calculated. The moments of inertia obtained for a reinforced concrete structure are rather indefinite.
The Property of a material by which it can withstand extensive deformation without failure under high tensile stresses is said to be it ductility. Mild steel is a very ductile material. The percentage elongation of a standard tension test specimen after fracture can be as high as 25 to 30%. This gives visible deflections of evidence of impending failure in case of overloads. The extra loads may be removed from the structure to prevent collapse. Even if collapse does occur, time is available for occupants to vacate the building.
In structural members under normal loads, high stress concentrations develop at various points. The ductile nature of the usual structural steel enables them to yield locally at those points, thus redistributing the stresses and preventing premature failures.
Additions to existing steel structures are very easy to made. Connections between new and existing structures can be employed very effectively. New bays or even entire new wings can added to existing steel frame building, and steel brides may often be widened.
Steel sections cab be reused after a structure is disassembled.
Steel has a scrap value even though it is not reusable in its existing form.
Steel structures provide completely impervious construction and structures like reservoirs, oil pipes, gas pipes, etc. are preferably made from structural steel.
High-rise buildings, long span bridges and tall transmission towers are made up of structural steel. Industrial buildings up to a span of 90.m can be designed by plate girders or trusses. Bridge spans up to 260.m are made with plate girders. For through truss bridges, Bridge spans of 300.m have been used.
For temporary structures, steel construction is always preferred. Army constructions during war are mostly made out of structural steel. The structures may be disassembled by opening few bolts, component parts are carried to new places are the structure is easily reassembled.
Most steels are susceptible to corrosion when freely exposed to air and water and must therefore be periodically painted. This requires extra cost and special care. The use of weathering steels, in stable design applications, tends to eliminate this cost. If not properly maintained, steel members can loose 1 to 1.5 mm of their thickness each year. Accordingly such constructions can loose weight up to 35% during their specified life and can fail under the external loads.
Although steel members are incombustible, their strength is tremendously reduced at temperatures prevailing in fires. At about 400ºC, creep becomes much more pronounced. Creep is defined as plastic deformation under a constant load for a long period of time. This produces excessively large deflections/deformations of main members forcing the other members to higher stresses or even to collapse. Steel is an excellent conductor of heat and may transmit enough heat from a burning compartment of a building to start fire in other parts of the building to start fire in other parts of the building. Extra cost is required to properly fire proof the building.
The steel sections usually consist of a combination of thin plates. Further, the overall steel member dimensions are also smaller than reinforced concrete members. If these slender members are subjected to compression, there are greater chances of buckling. Buckling is a type of collapse of the members due to sudden large bending caused by a critical compressive load. Steel when used for columns is sometimes not very economical because considerable material has to be used merely to stiffen the columns against buckling.
In few countries, steel is not available in abundance and its initial cost is vary high compared with the other structural materials. This is the most significant factor that has resulted in the decline of steel structures in these countries.
For certain types of buildings, the steel form is architecturally preferred. However, for majority of residential and office buildings, steel structures without the use of false ceiling and cladding are considered to have poor aesthetic appearance. A considerable cost is to be spent on such structures to improve their appearance. Cladding is a covering of metal, plastic or timber put on the surface of a structural member to completely encase it. The cladding not only protects the member but also improves its appearance.
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Featured content:For more Structural Steel Vs Mild Steelinformation, please contact us. We will provide professional answers.
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May 25,
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Mild steel is only a composite that has a blend of two constituents iron and carbon. It contains up to 2.1% carbon which could move considering the essential. Additionally, it has different components like cobalt, nickel, chromium, titanium, tungsten, and considerably more. Notwithstanding, it shows that the extent of copper ought to be no less than 0.40 percent. Mild steel is a kind of carbon steel. Whenever the carbon content in the amalgam is 0.05 to 0.309%, it is considered mild carbon steel. Mild steel is additionally the most usually sold sheet metal for DIY and home improvement projects.
Benefits:
Adaptable:
One of the most helpful properties of mild steel is it very well may be bowed, sliced, and curved to make the ideal shape more straightforward than other metals. It is one reason why mild steel is famous in numerous businesses from the production of family things to primary applications to the DIY and home improvement project. The elevated degree of interest makes gentle steel a broadly delivered material and hence an entirely reasonable material.
Weight:
Contrasted with high carbon steel mild carbon steel is lighter. The extent of carbon is the fundamental impacting factor for weight. Mild steel is simpler and is utilized for assembling car parts, pipelines, and for example fences and decorations for homes and organizations.
Extraordinarily Affordable:
While dealing with a low financial plan, gentle carbon steel ends up being awesome. An ideal material keeps project costs as low as could be expected. While gentle steel is somewhat less expensive than different metals you should consider the way that you might need to get it to keep it from consumption.
Drawbacks:
Relatively Less Stronger:
Mild steel is reasonable for mechanical design and broadly useful for creation. Its solidarity settles on it a marvelous decision of material for the development of enclosures, casings, fencing, and different applications where it wont be exposed to high pressure. Consequently, it is liked for causing home and nursery items that to require low stress.
Limit To Heat Treatment:
Treating gentle steel through heat components can influence carbon content.
These are a portion of the advantages and downsides that influence the utilization of mild carbon steel. As each coin has different sides. You could check it out requesting mild steel from Shree Ji Steel Corporation. Unending customization, precise manufacture, convincing administrations, bother-free conveyance, and fulfillment are the advantages that you get by requesting it from us.
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