Maximum Size of Aggregate - Concept | Civil Engineering | JoVe

Conventionally, the maximum aggregate size is determined by the sieve size that retains at least 15 percent of the particles in a sample set.

As the maximum aggregate size increases, the surface area per unit mass that must be wetted or coated by the cement paste decreases, improving the workability of concrete.

However, beyond a specific size, larger aggregates offer less area for bonding with cement mortar.

Larger aggregates also tend to produce more microcracks at the coarse aggregate-cement interface and introduce discontinuities in the concrete mass, leading to a heterogeneous concrete with reduced strength.

The maximum size of the aggregate depends on the dimensions of the concrete member and the clear spacing between the reinforcing bars in the concrete member.

Additionally, the cost associated with stockpiling aggregates of different sizes required for a stable mix and preventing segregation while handling and placing these aggregates is vital in deciding the maximum size of aggregate.

Generally, for structural concrete, the maximum size of aggregate is restricted to one inch or one and a half inches.

The maximum size of aggregate is defined as the aperture of the sieve retaining 15 percent or more of the particles present in the aggregate sample. The aggregate's maximum size impacts the concrete's water requirement, workability, and strength. Larger aggregates reduce the surface area needing cement paste coverage, which can lower water needs, thereby allowing a decrease in the water-to-cement ratio when the desired workability and richness of the mix are to be maintained, which can result in enhanced concrete strength. However, too-large aggregates may weaken concrete by reducing the aggregate-cement bond area and introducing discontinuities, leading to a heterogeneous mix. The optimal maximum size of aggregate depends on the specific application, but for most structural concrete, it is typically limited to either 25 mm or 40 mm. The size is constrained by the dimension of the concrete member, the space between reinforcing bars in the member, and a balance between the cost of managing various aggregate sizes and the risk of segregation during placement.

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Maximum Size Of Aggregate Sieve Aperture Concrete Water Requirement Workability Concrete Strength Surface Area Cement Paste Coverage Water to cement Ratio Aggregate cement Bond Area Heterogeneous Mix Structural Concrete Aggregate Sizes Reinforcement Bars Segregation Risk

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