Publication result detail

Influence of the Maximum Grain Size of Aggregate on the Ultrasonic Pulse Velocity in Concrete Samples

ŠTOUDEK, R.; KOKTAVÝ, B.

Original Title

Influence of the Maximum Grain Size of Aggregate on the Ultrasonic Pulse Velocity in Concrete Samples

English Title

Influence of the Maximum Grain Size of Aggregate on the Ultrasonic Pulse Velocity in Concrete Samples

Type

Paper in proceedings (conference paper)

Original Abstract

This paper present results of studies of ultrasonic pulse velocity in concrete samples. The objective of the study is to determine correlations between pulse velocity and maximum grain size of aggregate. So we have used broadband ultrasound measurement to characterize cement-based concrete samples, which were made from four different mixes with various gradings aggregates.

English abstract

This paper present results of studies of ultrasonic pulse velocity in concrete samples. The objective of the study is to determine correlations between pulse velocity and maximum grain size of aggregate. So we have used broadband ultrasound measurement to characterize cement-based concrete samples, which were made from four different mixes with various gradings aggregates.

Keywords

Concrete, ultrasonic, pulse, velocity.

Key words in English

Concrete, ultrasonic, pulse, velocity.

Authors

ŠTOUDEK, R.; KOKTAVÝ, B.

RIV year

2013

Released

05.12.2012

Publisher

CERM

Location

Brno

ISBN

978-80-7204-823-6

Book

10th International Conference NDT 2012 - Non-Destructive Testing in Engineering Practice

Edition

1

Pages from

146

Pages to

151

Pages count

6

BibTex

@inproceedings{BUT96740,
  author="Richard {Štoudek} and Bohumil {Koktavý}",
  title="Influence of the Maximum Grain Size of Aggregate on the Ultrasonic Pulse Velocity in Concrete Samples",
  booktitle="10th International Conference NDT 2012 - Non-Destructive Testing in Engineering Practice",
  year="2012",
  series="1",
  number="1",
  pages="146--151",
  publisher="CERM",
  address="Brno",
  isbn="978-80-7204-823-6"
}