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INFLUENCE OF TEMPERATURE, CEMENT TYPE AND LEVEL OF CONCRETE CONSOLIDATION ON CHLORIDE INGRESS IN CONVENTIONAL AND HIGH-STRENGTH CONCRETES

The present work reports the results of an investigation conducted to evaluate the influence of temperature, cement type and level of consolidation of concrete on chloride ingress into conventional and high-strength concretes. Four concrete mixes having the same workability were made, two with an ordinary Portland cement (OPC) and two with sulphate-resisting cement (SRPC). Concrete specimens were exposed to 5% sodium chloride solutions with temperatures of 20 and 45 degrees C for a period of 180 days. The results indicate that an increase in the solution temperature considerably increases the chloride ingress in conventional and high-strength concretes, especially up to depths of 45 mm. Data also indicate that OPC performs better than SRPC in terms of chloride diffusion. Furthermore, the chloride diffusion also increased with a decrease in the level of concrete consolidation. High-strength concrete showed a better performance against chloride ingress than conventional concrete. (A)

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  • Corporate Authors:

    Elsevier

    The Boulevard, Langford Lane
    Kidlington, Oxford  United Kingdom  OX5 1GB
  • Authors:
    • AL-KHAJA, W A
  • Publication Date: 1997

Language

  • English

Media Info

Subject/Index Terms

Filing Info

  • Accession Number: 00741061
  • Record Type: Publication
  • Source Agency: Transport Research Laboratory
  • Files: ITRD
  • Created Date: Oct 30 1997 12:00AM