How does RCC Concrete get used in the Construction Industry?
RCC concrete is also used for the construction of bridges, tunnels for hydropower, irrigation canals, drains and all other structures conceivable. In composites, ordinary concrete is reinforced to increase its compressive and tensile strengths. Better quality cement has resulted in stronger, more durable concrete that can be used in a variety of structures.
Steel construction often uses reinforced concrete because of its versatility, adaptability, fire and corrosion resistance, and low maintenance cost. In concrete, heavy loads can be placed without breaking or causing it to fatigue, thanks to its high compressive strength. The strength of steel comes from a different origin.
Reinforced cement concrete or ferroconcrete combines concrete with reinforcement that has higher strength and ductility so as to compensate for the relatively low tensile strength of concrete.
The use of RCC concrete in various types of construction can be attributed to the combination of reinforcement and concrete. Due to its high tensile strength, it can withstand enormous lateral forces that would damage other materials. With reinforced concrete, you are combining the best components of both materials, resulting in a highly reliable construction material.
RCC Concrete Uses
As compared to steel bridges, reinforced concrete bridges are aesthetically superior and more economical than small, medium and long span bridges. Several types of construction can benefit from the development of modern concrete, namely concrete strength and durability.
For floating structures, reinforced concrete may not be the best construction material, but there are a number of projects where it has been used with great success. The structures used as floating platforms include reinforced concrete caissons and floating docks.
Pipes made from reinforced concrete are used for a variety of applications, such as sewage systems. In spite of this, reinforced concrete pipes cannot be used when pressure exceeds 91.5 meters of water head without special jointing devices embedded into a cylindrical steel sheath.
Walls, floors, beams, columns, and roofs make up a building. Residential and commercial structures can benefit from reinforced concrete floors, roof slabs, columns, and beams. In conference halls where column free space is essential, reinforced concrete grid floors made up of beams and slabs are widely used.
It is an environmentally friendly, durable, fireproof, and reliable construction material. In addition to concrete's versatility, other construction materials cannot achieve the same architectural effects that concrete can.
Whether it is an office building or a residential complex, multistory reinforced concrete buildings are commonly used. Due to its increased durability and resistance to wear and tear, RCC is perfect for heavy duty floors in factories.
Recent years have seen a significant increase in the use of precast concrete in the development of reinforced concrete. Different types of structures, as well as structural elements and portions of structures, can be constructed using precast concrete. A few examples of precast concrete are columns, beams, slabs, pipes, fence posts, lampposts, manholes, and gully equipment.
Marine structures such as wharfs, quay walls, watchtowers and lighthouses are also constructed out of reinforced concrete. Some types of reinforced concrete may resist corrosion under such hostile conditions. Reinforced concrete trusses are recommended for warehouse construction on coastal areas.
A large majority of foundations, such as rafts, are constructed with reinforced concrete. For bridges and buildings, reinforced concrete piles have been utilized as foundations that are precast.
It is common to use reinforced concrete in the construction of roads intended to carry heavy traffic. Reinforced concrete is often used in high class, heavy duty roads such as airplane runways and flying boat slipways.
Abutments for bridges and retaining walls for earthen embankments are common uses of reinforced concrete in earth retaining structures. It is ideal for structures that retain water, such as ground and overhead tanks, as well as hydraulic structures, such as gravity dams and arch dams. Large domes for water tanks, sports stadiums, and conference halls are commonly constructed from this material.
The use of reinforced concrete poles for power transmission has almost replaced the use of steel poles. The reinforced concrete used in TV transmission towers is invariably tall.
An economical solution for aircraft hangars is RCC shells composed of thin circular slabs and deep edge beams. In industrial structures with large column free spaces under the roof, reinforced concrete folded plate construction is used.
Wrapping it Up
There is no doubt that reinforced concrete has an advantage over other materials. Every quality concrete supplier has a wealth of knowledge and experience working with this composite material because of its affordability, ease of use, and versatility. With reinforced concrete, you cannot go wrong when building a structure that has to stand the test of time.
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Video Source: All About Structural Analysis and Design