Re-C, or Reinforced Cement Concrete is one of the most widely used construction materials in the world. How can Re-C help you? Simply put, Re-C is a high-strength material that is both cost effective and versatile. It consists of basic concrete mixed with gravel, sand and other additives that can be molded into any shape and size. Re-C has many characteristics that make it ideal for use in commercial and residential construction.
Re-C is used for a variety of different applications in commercial and residential construction such as:
Buildings, roads, bridges, pipes, etc
Commercial & Residential Construction
When constructing a building or another type of structure, the foundation is one of the most important elements. The foundation provides stability to the overall structure. Without a strong foundation, there would be nothing to support the weight of the building or structure. An unstable foundation could lead to structural damage or even collapse. In order for a building or structure to be stable it must have a strong foundation. Re-C provides just that – a strong foundation that can withstand the weight of a building or structure.
Reinforced concrete, or Re-C is a concrete used for the construction of buildings. It is made of normal Portland cement, sand and gravel with steel reinforcing bars. Re-C is extremely strong especially when compared to unreinforced concrete. In fact, it’s up to ten times stronger than regular concrete.
Re-C has been around since 1855 when Joseph Monier patented a process of using steel mesh in concrete. However, it really came into prominence after the advent of structural steel during the Industrial Revolution.
Re-C could be used in almost any building project that called for reinforced concrete. It’s perfect for things like foundations and footings in new construction projects or even renovating existing structures such as driveways and sidewalks.
If you have a project that requires reinforced concrete, you’ll need to hire an experienced contractor who can make sure the job is done right. This will ensure that your project meets all building codes and regulations and provide you with peace of mind that your project will look great and last for years to come.
Re-C is the most common type of concrete used in commercial and residential projects today. It is a strong, durable, economical building material consisting of Portland cement and water combined with sand, rock, and/or other suitable aggregates. The ingredients are mixed together before or during delivery to a construction site.
Reinforced Concrete (Re-C) is a concrete building material produced with a mixture of cement, water, sand and aggregate (crushed rock) which has steel bars or fibres (or both) embedded in it. This combination works extremely well as the steel provides the tensile strength and the concrete compressive strength.
Reinforced Concrete is a versatile, durable and economical construction material used in various types of structures, from buildings to bridges, dams to tunnels. It’s also an ideal solution for many residential building needs such as retaining walls, basement slabs and driveways.
Reinforced concrete is made by inserting reinforcing bars into molds filled with concrete. The reinforcing bars are placed in a grid pattern and are held together by wire ties or welding. The reinforcing bars in addition to the concrete give the structure its strength and help resist loads applied to the structure.
Reinforced concrete can be utilized for smaller residential projects such as driveways or patios up to large scale commercial projects such as skyscrapers.
Reinforced cement concrete is concrete in which steel has been embedded in such a manner that the two materials act together in resisting forces. The reinforcing steel–rods, bars, or mesh–absorbs the tensile, shear, and sometimes the compressive stresses in a concrete structure. Plain concrete does not easily withstand tensile and shear stresses caused by wind, earthquakes, vibrations, and other forces and is therefore liable to cracking. By eliminating cracks in structural members, reinforcing steel increases their strength and useful life.
The use of reinforced concrete in building construction began about 1849 when Joseph Monier of France suggested that it would be possible to strengthen concrete by embedding iron rods or wire mesh into it. In 1879 A. E. Paulton of England cast beams with embedded steel bars; their practical use was established in 1882 by Ernest L. Ransome of Oakland, California.
In reinforced concrete the tension is resisted by the steel; compression is resisted by both the steel and the cement paste (the material into which sand, gravel, or crushed rock are mixed along with water and cement to form concrete). Cement paste hardens when mixed with water because it chemically reacts with water molecules to form long crystals; these bind together to form a
Reinforced Cement Concrete (RCC) or Reinforced Concrete or Reinforced Concrete Design is one of the most prominent and commonly used construction materials in the world. It is composed of concrete which is a mixture of cement, sand, aggregate and water and steel which is embedded in it to give it tensile strength.
RCC was first patented in 1849 by Joseph Monier. He was a Parisian gardener who made garden pots and tubs of concrete reinforced with an iron mesh. However, it was not until after 1867 that reinforced concrete became widely used.
The material has been used extensively in the construction industry for building all kinds of structures such as bridges, dams, flyovers, roads etc. This can be attributed to its versatility. The strength, durability and life expectancy of RCC are unmatched by any other material. Even though initial costs incurred while using RCC are comparatively high but considering the long term benefits and ease of maintenance, RCC proves to be cost effective in the long run.
Reinforced cement concrete (RCC) is a composite construction material, composed of cement and other cementitious materials such as fly ash and slag cement, aggregate (generally a coarse aggregate made of gravel or crushed rocks such as limestone, or granite, plus a fine aggregate such as sand), water, and chemical admixtures. Reinforced concrete can also be permanently stressed, so that the reinforced concrete element is made to act compositely with another material, such as prestressed concrete. This ensures that the tensile stresses that develop in the concrete are counteracted by an equivalent compressive stress.
The reinforcing steel—rods, bars or mesh—absorbs the tensile and sometimes shear stresses in a concrete structure. Concrete is strong in compression but has weak tensile strength; to compensate for this imbalance in a reinforced concrete member (such as a beam), steel reinforcement bars (“re-bars”) are embedded within the structure so that when the member is under tension it will act compositely with the surrounding concrete. The steel must have sufficient strength to resist the loads applied to the structure without breaking. The most common type of steel reinforcement is rebar (short for reinforcing bar), formed from carbon steel. Other types of steel reinforcement include welded wire fabric (“