The weight of reinforced concrete varies depending upon the mix type. The engineering industry typically assumes a weight of 145 pounds per cubic foot (pcf) and most often uses 150 pcf for structural calculations. Note that this is for standard cured reinforced concrete. Lightweight concrete is generally taken as 110 to 120 pcf, again, depending upon the mix design. The fact that there is sometimes more or less steel reinforcement within the structural member is ignored.
The weight of reinforced concrete can vary depending on the density of the materials used and the design of the structure. On average, reinforced concrete weighs about 150-160 pounds per cubic foot. This weight includes the weight of both the concrete and the reinforcement materials such as steel bars or fibers.
The strongest foundation typically consists of reinforced concrete footings and a concrete slab. This provides a stable base for the structure, ensuring it can support the weight and withstand various environmental conditions. The specific design and size of the foundation will depend on the building's requirements and local building codes.
It deals with the tension and compression of the concrete. Concrete is a really great material when in comes to compression. It has a high strength in compression but little in the way of tension. You can test this for your self. Get a small unreinforced piece of concrete and pull it apart it ( put it in tension) and it breaks fairy easily. Now, try pushing together (put it in compression) and it doesn't break anywhere near as easily, if you can break it at all. Steel is the opposite. It has more strength in tension than in compression. Putting steel bars in concrete allows you to have good strength in compression and in tension. In an easy way to understand it and get the general idea, when the reinforced concrete is under tension, the steel bars take over, and when the reinforced concrete is under compression, the concrete takes over.
On average, a house may contain around 100-150 cubic meters of reinforced concrete for its foundation, walls, and other structural elements. The exact amount can vary based on the size and design of the house.
A cubic yard of concrete weighs the same underwater as it does on land, which is approximately 4,000 to 4,500 pounds. The weight is determined by the density of the concrete mix, not the surrounding environment.
To calculate the weight of a pre-cast concrete tilt-wall panel, you would need to know the volume of the panel and the density of concrete typically used in such panels. You can then multiply the volume by the density to determine the weight. The formula would be weight = volume x density.
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Reinforced concrete floors can be designed for a wide range of loads. Different thicknesses and shapes of concrete and arrangements of reinforcing will have different strengths.
More likely reinforced concrete.
reinforced concrete prise
Steel reinforced concrete is concrete with rods of steel running through it.
Reinforced concrete is just normal concrete with steel reinforement placed inside.
A. N. Talbot has written: 'Tests of reinforced concrete beams: resistance to web stresses' -- subject(s): Reinforced concrete 'Tests of concrete' -- subject(s): Concrete 'Tests of concrete and reinforced concrete columns' -- subject(s): Reinforced concrete, Concrete, Columns, Concrete, Concrete construction, Concrete Columns 'The railway transition spiral' -- subject(s): Railroads, Curves and turnouts 'Tests of cast-iron and reinforced concrete culvert pipe' -- subject(s): Pipe, Testing 'Reinforced concrete wall footings and column footings' -- subject(s): Reinforced concrete, Foundations 'Tests of columns' -- subject(s): Accessible book, Columns, Iron and steel, Iron and steel Columns, Reinforced concrete 'The strength of concrete' -- subject(s): Reinforced concrete 'Tests of timber beams' -- subject(s): Girders
Voided biaxial slabs are reinforced concrete slabs in which voids reduce the amount of concrete.While concrete has been used for thousands of years, the use of reinforced concrete is a relatively recent invention, usually attributed to Joseph-Louis Lambot in 1848. Joseph Monier, a French gardener, patented a design for reinforced garden tubs in 1868, and later patented reinforced concrete beams and posts for railway and road guardrails.The main obstacle with concrete constructions, in case of horizontal slabs, is the high weight, which limits the span. For this reason major developments of reinforced concrete have focused on enhancing the span, either by reducing the weight or overcoming concrete's natural weakness in tension
Reinforced concrete has steel bars embedded in it. It is also called re-barred concrete.
George Concrete
H. B. Andrews has written: 'Practical reinforced concrete buildings' -- subject(s): Accessible book, Reinforced concrete construction 'The design of reinforced concrete slabs, beams and columns' -- subject(s): Reinforced concrete
Reinforced concrete is concrete reinforced with steel bars because although concrete is very strong in compression (depending on its components) it is very weak in tension and the steel bars make up for the required tensile strength.