A new test method to assess the bacterial deterioration of cementitious materials

“…Surface contact onto concrete by bacterial biofilms (discussed in some detail below) increases the concentration of degrading metabolites to a greater degree than just soluble chemicals alone, resulting in an increase of concrete degradation deeper into the matrix [9]. This is the reason that chemical tests alone do not adequately estimate microbial damage to concrete [68].…”

“…In addition rock-inhabiting fungi demonstrate enough mechanical strength in their hyphae to penetrate into crevices for nutrients. Fungi in this case, especially those that produce melanin, which confers extra-mechanical strength, can rapidly penetrate millimeters to centimeters into concrete-like structures [9,53,60]. Fungi also can produce peroxide, by the enzyme peroxidase.…”

“…Since then, biodegradation of concrete structures was demonstrated to be a common occurrence; however, various microbial populations and mechanisms were shown to play different roles at different locations [5][6][7]. As a result, microbial assays designed to determine the rate of concrete biodegradation proved useful in evaluating concrete properties but were not a good predictor of environmental impacts on concrete [8,9]. Specific environmental conditions to which concrete is exposed, at any given location must be considered in order to understand environmental impacts on concrete biodeterioration [10].…”

Review of Concrete Biodeterioration in Relation to Buried Nuclear Waste

“…Surface contact onto concrete by bacterial biofilms (discussed in some detail below) increases the concentration of degrading metabolites to a greater degree than just soluble chemicals alone, resulting in an increase of concrete degradation deeper into the matrix [9]. This is the reason that chemical tests alone do not adequately estimate microbial damage to concrete [68].…”

“…In addition rock-inhabiting fungi demonstrate enough mechanical strength in their hyphae to penetrate into crevices for nutrients. Fungi in this case, especially those that produce melanin, which confers extra-mechanical strength, can rapidly penetrate millimeters to centimeters into concrete-like structures [9,53,60]. Fungi also can produce peroxide, by the enzyme peroxidase.…”

“…Since then, biodegradation of concrete structures was demonstrated to be a common occurrence; however, various microbial populations and mechanisms were shown to play different roles at different locations [5][6][7]. As a result, microbial assays designed to determine the rate of concrete biodegradation proved useful in evaluating concrete properties but were not a good predictor of environmental impacts on concrete [8,9]. Specific environmental conditions to which concrete is exposed, at any given location must be considered in order to understand environmental impacts on concrete biodeterioration [10].…”

Review of Concrete Biodeterioration in Relation to Buried Nuclear Waste

“…Deterioration may be the result of design errors, material incompatibilities [1], industrial or farming waste, agro-food and breeding waste waters [2], seawater attack, carbonation, unexpected loads, vibration, repeated freezing and thawing, and the application of de-icer salts throughout winter. Concrete deterioration due to seawater attack ( Figure 1) can lead to a dimensional change of concrete sections and then a reduced strength or load carrying capacity of the concrete structure, in terms of ultimate moment.…”

Preliminary study on the size effect of composite materials subjected to bending

“…Biogenic high-molecular organic acids, such as humic acid or pyruvic acid, and biogenic low-molecular organic acids, such as formic acid, acetic acid, propionic acid, butyric acid, lactic acid, oxalic acid, malic acid, citric acid and others [4,5], are formed by the activity of certain chemoorganotrophic bacteria and fungi. In some cases the chemical corrosive effect of organic acids is even higher than that of H 2 SO 4 [6].…”

Fungistatic Properties of Granulated Blastfurnace Slag and Related Slag-Containing Cements