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- Penetration Resistance Tests on High Strength ConcretePublication . Lopes, Sérgio Manuel Rodrigues; Nepomuceno, MiguelThe aim of the investigation described here is to verify the applicability of penetration resistance tests on high strength concrete as a way of estimating its compressive strength “in situ”. A relationship between compressive strength of a given concrete and its resistance to penetration by a steel probe fired into the concrete surface is presented to a compressive strength range varying from 50 MPa to 90 MPa using an alternative firing apparatus to the standard apparatus Windsor Probe Test System.
- Evaluation of In-place Concrete Strength by Near-to-surface TestsPublication . Lopes, Sérgio Manuel Rodrigues; Nepomuceno, MiguelThe near-to-surface tests, as described by British Standard BS 1881: Part 207: 1992, comprises different techniques which were developed to evaluate in-situ strength of concrete, and it includes: internal fracture, pull-out, pull-off, penetration resistance and break-off tests. Since these tests measure only a property of concrete close to the surface, the evaluation of in-situ strength of concrete mass has to be obtain by a experimentally correlation between the near-to surface test results and the compressive strength of concrete mass. This paper discusses the reliability of two of this techniques, penetration resistance test and pull-out tests, as a construction tool for the evaluation of the in-place concrete strength both in normal and high strength concrete. For penetration resistance test applied to high-strength concrete an alternative firing apparatus to the standard apparatus, Windsor Probe Test System, is used. The obtained correlations are also presented and compared to those obtain by other research works.
- A Comparative Study of Penetration Resistance Apparatus on ConcretePublication . Lopes, Sérgio Manuel Rodrigues; Nepomuceno, MiguelThe existence of a relationship between the compressive strength of a given concrete and its resistance to penetration by a steel probe fired into the concrete is well known; the depth of penetration will be inversely proportional to the compressive strength. A test apparatus, designed for this purpose, using a special probe and standardised powder charge, was developed in the USA during the 1960s’ and is known as Windsor Probe Test and covered by the ASTM Standards (ASTM-C803-90). In Europe, similar standards are the British Standards (BS 1881: Part 207: 1992). The aim of this work is to perform studies concerning to a new apparatus application in comparison with the WPT System, which was called Alternative Firing Apparatus (AFA). Five different mix proportions were produced in order to obtain five sets of specimens with five different classes of compressive strength. The tests with the two described systems were performed at 28 days age for each set of specimens. The obtained results show that the Alternative Firing Apparatus could be a suitable mean for the assessment of in-place strength. The main physical limitation of penetration resistance tests is the surface damage and the danger of splitting of members, which limits the zones of testing. However, it was found that the Alternative Firing Apparatus causes less damage than WPT System. Consequently, minor distances between probes are possible.