Mix design, workability heat evolution and strength development of high strength concrete

Soutsos, Marios Nicou

January 1992

A literature survey of the properties and uses of high strength concrete, defined for this study as having a strength in excess of 60 N/tnm2, has shown that of prime need is a systematic, reproducible procedure for attaining high strength concrete. The "Maximum Density Theory", i.e. the requirement that the aggregate occupies as large a relative volume as possible, has been adopted as an approach to optimisation of the mix proportions. However, this does not consider the effect that the aggregate suIface area has on the requirement of excess paste for lubrication. To investigate the combined effect of void content and surface area, mixes with lower sand proportions than that required for minimum void content were tested for slump. The optimum sand proportion is the one that produces the highest slump, for a particular cement content. This procedure has been called: "The Modified Maximum Density Theory". Having thus optimised the cement and aggregate contents, partial cement replacement by mineral admixtures, at low water-cement ratios, has been investigated in order to assess: a) their contribution to long term strengths, b) their contribution to reducing the heat evolution of concrete mixes, and c) their effect on the workability of concrete. Condensed silica fume (at replacement levels of up to 15%) produced higher compressive strengths than ordinary Portland cement. Ground granulated blast furnace slag (at replacement levels of up to 30%) can be used without decreasing the 28-day strength. Replacement by 20% pulverised fuel ash resulted in a 15% decrease in the 28-day strength and equal strength to ordinary Portland cement concrete at ages beyond 56-days. Temperature measurements during hydration, under adiabatic conditions, have however shown that these replacement levels do not lower the temperature rise at a water-binder ratio of 0.26. The higher levels required for significant temperature reduction will also cause a significant reduction in the strength. To offset this ground granulated blast furnace slag (58%) and pulverised fuel ash (36%) in combination with 10% condensed silica fume 4 were used. These combinations reduced the temperature rise by more than 10°C while the reduction in the 28-day compressive strength was less than 15%. Partial cement replacement by pulverised fuel ash and ground granulated blast furnace slag improved the workability and therefore allowed a reduction in the superplasticiser dosage required for a given slump. The use of condensed silica fume reduces the workability at low superplasticiser dosages, but it has a water-reducing effect above a certain superplasticiser dosage. Results from these studies have been used to formulate guidelines for the proportioning of materials for producing high strength concrete.

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Some factors affecting the durability of aggregates in bituminous macadum wearing courses

Gourley, Colin Stephen

January 1991

No description available.

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Directional shear cell tests on kaolinite powder

Akbarian Miandouab, Saber

January 1997

No description available.

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Leaching of metal from modern concrete and resulting durability implications

Hillier, Shaun Roy

January 1997

No description available.

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Study of silicon-on-insulator structures formed by low dose implantation of oxygen and nitrogen

Wong, Jimmy Kam Yiu

January 1995

No description available.

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Rubber modified bituminous mixtures : effects of natural rubber powders and latex on thin-pavement bituminous mixtures in repeated flexure

Mat, Jamaludin

January 1989

No description available.

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Effect of mix additives on the characteristics of bituminous road mixtures : The effect of mix additives on the fatigue and strength characteristics of bituminous highway pavement materials was investigated by means of indirect tensile testing

Rafati-Afshar, F.

January 1986

No description available.

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Permanent deformation in bituminous mixtures

Khanzada, Shahab

January 2000

No description available.

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Porosity, microstructure and properties of cement paste

Patel, Hiteshkumar H.

January 1987

No description available.

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Hydration and durability of calcium aluminate cements

Houghton, Sarah Justine

January 1996

No description available.

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Miscellaneous materials