Cement based material with crystal-growth ability under long term aggressive medium impact

Cement based material with crystal-growth ability under long term aggressive medium impact

Peer-reviewed article not indexed in WoS or Scopus

This article describes test and results of long term effect by sulphate environment on new designed crystalline technology based material with fly-ash as partly cement substituent. At this article are presented results of new developed modification, which was the most effective and suitable for further commercial production during long term physical and mechanical tastings. Main aim of the experiment was to analyze ability of this new material to develop crystalline structure in capillary system and proof effectiveness of new developed crystalline structure in concrete pore system affected by long term sulfur medium attack.

This article describes test and results of long term effect by sulphate environment on new designed crystalline technology based material with fly-ash as partly cement substituent. At this article are presented results of new developed modification, which was the most effective and suitable for further commercial production during long term physical and mechanical tastings. Main aim of the experiment was to analyze ability of this new material to develop crystalline structure in capillary system and proof effectiveness of new developed crystalline structure in concrete pore system affected by long term sulfur medium attack.

Capillary Pore, Cement-Based, Coating, Composite Material, Concrete, Corrosion, Crystal Growth, Crystallization, SEM, Waterproof Concrete, Waterproofing

Capillary Pore, Cement-Based, Coating, Composite Material, Concrete, Corrosion, Crystal Growth, Crystallization, SEM, Waterproof Concrete, Waterproofing

BOHUŠ, Š.; DROCHYTKA, R.

2013

01.05.2012

1662-7482

Applied Mechanics and Materials

166-169

1773

Swiss Confederation

1773

1778

6