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Discover the surprising weakness of concrete in tension, despite its impressive compressive strength However, tensile stresses develops in concrete members as a result of flexure, shrinkage and temperature changes. This article explores the science behind why concrete struggles under stretching forces, using vivid metaphors and detailed explanations.

Concrete has great compressive strength, but poor tensile strength Concrete is not normally designed to resist direct tension This is because concrete is made of ‘little’ stones, which means that it always has microscopic cracks in its body

When tensile forces are applied to concrete, these cracks become elongated and eventually the concrete breaks apart.

The inclusion of steel in concrete is to take up the tensile forces, since concrete is weak in tension and strong in compression Moreover it gives warning of the structure before failure. Concrete is weak in tension for two main reasons 1) it has a low tensile strength and brittle nature, making it unable to resist direct tension as well as it can resist compression.

So, here in this article, we will learn the whole concept of tensile strength of concrete in detail and you will get to know the exact reason due to which the concrete is weak in tension. Concrete consists of cement, sand, and aggregates cemented in a stiff foundation Concrete is weak in tension but strong in compression because it is brittle in nature The cement paste added to the concrete mix contains minimal tensile stress capacity, leading to shrinkage or cracking under pulling forces.

Concrete, although strong in compression, is weak in tension

For this reason it needs help in resisting tensile stresses caused by bending forces from applied loads which would result in cracking and ultimately failure. Concrete is exceptionally strong in compression but remarkably weak in tension This is due to its brittle nature and the way cracks initiate and propagate under tensile stress The tensile strength of concrete is typically around 10% of its compressive strength.

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