Publication detail

Utilization of Waste Packaging Glass as Progressive Filler in Polymer Anchor Material Based on Epoxy Resin

ŽLEBEK, T. HODUL, J. DROCHYTKA, R.

Original Title

Utilization of Waste Packaging Glass as Progressive Filler in Polymer Anchor Material Based on Epoxy Resin

Type

conference paper

Language

English

Original Abstract

The work deals with the use of waste glass to the polymer anchor material based on epoxy resin, primarily for anchoring to a high strength concrete (HSC). The main aim was to use the largest possible amount of the waste packaging glass by reducing the amount of epoxy resin, which is an expensive material and its production has a negative impact on the environment. Within the experimental verification, the influence of waste packaging glass fraction 0–0.63 mm on the final properties of the polymer anchoring material was observed. To determine the optimal formulation compressive strength, flexural strength, chemical resistance, shrinkage and pull-out test were performed. Based on the evaluation of the results the optimal percentage of filling was determined, when the polymer anchor material showed high strengths, minimal shrinkage, good chemical resistance, optimal consistency for anchoring into the HSC and high anchor bolt pull-out strength.

Keywords

Polymer anchor material, epoxy resin, waste packaging glass, shrinkage, chemical resistance, pull-out strength

Authors

ŽLEBEK, T.; HODUL, J.; DROCHYTKA, R.

Released

25. 1. 2019

Publisher

Trans Tech Publications

Location

Switzerland

ISBN

1660-9336

Periodical

Applied Mechanics and Materials

Number

887

State

Swiss Confederation

Pages from

40

Pages to

47

Pages count

8

URL

BibTex

@inproceedings{BUT142041,
  author="Tomáš {Žlebek} and Jakub {Hodul} and Rostislav {Drochytka}",
  title="Utilization of Waste Packaging Glass as Progressive Filler in Polymer Anchor Material Based on Epoxy Resin",
  booktitle="12th Envibuild – Buildings and Environment – From Research to Application",
  year="2019",
  series="Ulrich Pont, Matthias Schuss and Ardeshir Mahdavi",
  journal="Applied Mechanics and Materials",
  number="887",
  pages="40--47",
  publisher="Trans Tech Publications",
  address="Switzerland",
  doi="10.4028/www.scientific.net/AMM.887.40",
  issn="1660-9336",
  url="https://www.scientific.net/AMM.887.40"
}