Publication detail

Restrained Shrinkage Ring Test on Polymer Fibres Treated in Cold Plasma Discharge

KOPKÁNĚ, D. BODNÁROVÁ, L. HELA, R.

Original Title

Restrained Shrinkage Ring Test on Polymer Fibres Treated in Cold Plasma Discharge

English Title

Restrained Shrinkage Ring Test on Polymer Fibres Treated in Cold Plasma Discharge

Type

journal article - other

Language

en

Original Abstract

The paper refers to utilization of low temperature plasma discharge in air on polypropylene fibres. Such fibres have been tested in concrete as reinforcement. The effect has been tested by restrain ring test. The experiment proved positive correlation between time of exposure and cracks suppression. The effect is considered as improved cohesion of polymer fibres with cement matrix.

English abstract

The paper refers to utilization of low temperature plasma discharge in air on polypropylene fibres. Such fibres have been tested in concrete as reinforcement. The effect has been tested by restrain ring test. The experiment proved positive correlation between time of exposure and cracks suppression. The effect is considered as improved cohesion of polymer fibres with cement matrix.

Keywords

Polypropylene fibres, Restrained ring test, Cold plasma, DCSBD

RIV year

2013

Released

20.11.2013

ISBN

1660-9336

Periodical

Applied Mechanics and Materials

Year of study

2014

Number

464

State

CH

Pages from

25

Pages to

30

Pages count

6

Documents

BibTex


@article{BUT104431,
  author="Daniel {Kopkáně} and Lenka {Bodnárová} and Rudolf {Hela}",
  title="Restrained Shrinkage Ring Test on Polymer Fibres Treated in Cold Plasma Discharge",
  annote="The paper refers to utilization of low temperature plasma discharge in air on polypropylene fibres. Such fibres have been tested in concrete as reinforcement. The effect has been tested by restrain ring test. The experiment proved positive correlation between time of exposure and cracks suppression. The effect is considered as improved cohesion of polymer fibres with cement matrix.",
  chapter="104431",
  number="464",
  volume="2014",
  year="2013",
  month="november",
  pages="25--30",
  type="journal article - other"
}