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Aggregates

Aggregates. Aggregates are inert materials mixed with a binding material like cement or lime in the preparation of mortar or concrete. Granular material of mineral composition such as sand, gravel, shale, slag or crushed stone. CLASSIFICATION OF AGGREGATES. According to Source:

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Aggregates

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  1. Aggregates • Aggregates are inert materials mixed with a binding material like cement or lime in the preparation of mortar or concrete. • Granular material of mineral composition such as sand, gravel, shale, slag or crushed stone.

  2. CLASSIFICATION OF AGGREGATES According to Source: Natural aggregate: Native deposits with no change in their natural state other than washing, crushing & grading. (sand, gravel, crush stone) Artificial aggregates: They are obtained either as a by-product or by a special manufacturing process such as heating. (blast furnace slag, expanded perlite)

  3. According to Petrological Characteristics: • Igneous rocks: are formed by solidification of molten lava. (granite) • Sedimentary rocks: are obtained by deposition of weathered & transported pre-existing rocks or solutions. (limestone) • Metamorphic rocks: are formed under high heat & pressure alteration of either igneous & sedimentary rocks (marble). • According to Unit Weight: • Heavy weight agg.: Hematite, Magnetite Specific Gravity, Gs> 2.8 • Normal weight agg.:Gravel, sand, crushed stone 2.8 < Gs<2.4 • Light weight agg.:Expanded perlite, burned clay Gs< 2.4

  4. Normal-Weight Aggregate ASTM C 33 Most common aggregates • Sand • Gravel • Crushed stone Produce normal-weight concrete 2200 to 2400 kg/m3

  5. Normal weight Aggregates River gravel Crushed Limestone Crushed Concrete

  6. Lightweight Aggregate (1) ASTM C 330 Expanded • Shale • Clay • Slate • Slag Produce structural lightweight concrete 1350 to 1850 kg/m3

  7. Ultra-lightweight Aggregates Vermiculite Perlite Pumice Scoria Diatomite 7

  8. Heavyweight Aggregates Magnetite (left) Magnetite-sand (right)

  9. According to Size: • Fine aggregate: d ≤ 5 mm • Coarse aggregate: d > 5 mm • Aggregatescontaining a whole range of particles are named as “all-in” or “pit-run” aggregates.

  10. Coarse Aggregates • Coarse aggregates are retained on 4.75mm(#4) sieve. • Aggregates the size of whose particle is bigger than 4.75 mm but smaller than 7.5 mm are known as coarse aggregates.

  11. Fine Aggregate • Sand and/or crushed stone • < 5 mm • F.A. content usually 35% to 45% by mass or volume of total aggregate

  12. Coarse Aggregate • Gravel and crushed stone •  5 mm • typically between 9.5 and 37.5 mm

  13. Fine Aggregates • Particles of fine aggregates pass through 4.75mm(No.4) sieve .Most commonly used fine aggregates are sand, crushed stone, ash or cinder and surki.

  14. Particle Shape and Surface Texture • The shape and surface texture affect the properties of fresh concrete more than the properties of hardened concrete. • Rough-texture, and angular particles require more water to produce workable concrete than do smooth, rounded and compact particles. For both crushed or noncrushed aggregate, proper gradation gives the same strength for the same cement factor.

  15. PARTICLE SHAPE & SURFACE TEXTURE • In addition to petrological character, the external characteristics, i.e. The shape & surface texture of aggregates are of importance. Particle Shape • Rounded: Completely water worn & fully shaped by attrition. (River Gravel) • Irregular: Partly shaped by attrition so it contains some rounded edges. (Land Gravel)

  16. L w t • Angular: Has sharp corners, show little evidence of wear. (Crushed Stone) • Flaky: Thickness is relatively small with respect to two other dimensions. (Laminated Rocks) • Elongated: Have lengths considerably larger than two other dimensions

  17. FLAT ELONGATED ANGULAR ROUND

  18. Rounded aggregates are suitable to use in concrete because flaky & elongated particles reduce workability, increase water demand & reduce strength. • In the case of angular particles, the bond between agg. Particles is higher due to interlocking but due to higher surface area, angular particles increase water demand & therefore reduce workability. As a result, for the same cement content & same workability rounded agg. Give higher strength. ?

  19. Surface Texture • This affects the bond to the cement paste & also influences the water demand of the mix. Smooth: Bond b/w cement paste & agg is weak. Rough: Bond b/w cement paste & agg. is strong. • Surface texture is not a very important property from compressive strength point of view but agg. Having rough surface texture perform better under flexural & tensile stresses.

  20. SMOOTH ROUGH

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