Experimental determination of freeze-thaw resistance in self-compacting concretes

Experimental determination of freeze-thaw resistance in self-compacting concretes

Paper in proceedings (conference paper)

The paper describes the determination of freeze-thaw resistance in self-compacting concretes and compares several test methods used for this purpose. The basic principle of testing freeze-thaw resistance is the observation of changes, in this case the loss of certain properties, in concrete attacked by freeze-thaw cycles. This paper documents measurements of tensile strength, tensile splitting strength, and dynamic Young’s modulus measured by the ultrasonic pulse velocity test and resonance method. The outcome of the experiment is an evaluation of how suitable each test is for determining the freeze-thaw resistance of elfcompacting concrete.

The paper describes the determination of freeze-thaw resistance in self-compacting concretes and compares several test methods used for this purpose. The basic principle of testing freeze-thaw resistance is the observation of changes, in this case the loss of certain properties, in concrete attacked by freeze-thaw cycles. This paper documents measurements of tensile strength, tensile splitting strength, and dynamic Young’s modulus measured by the ultrasonic pulse velocity test and resonance method. The outcome of the experiment is an evaluation of how suitable each test is for determining the freeze-thaw resistance of elfcompacting concrete.

Freeze-thaw resistance;self-compacting concrete;relative dynamic modulus of elasticity

Freeze-thaw resistance;self-compacting concrete;relative dynamic modulus of elasticity

KOCÁB, D.; LIŠOVSKÝ, M.; ŽÍTT, P.

2020

03.06.2019

IOP Publishing

Bristol

IOP Conference Series: Materials Science and Engineering

1757-8981

IOP Conference Series: Materials Science and Engineering

549

1

United Kingdom of Great Britain and Northern Ireland

1

7

7

https://iopscience.iop.org/article/10.1088/1757-899X/549/1/012019