Andreas Rohatsch scite author profile

This study compares the consolidation efficiency and compatibility of three selected alkoxysilanes on two porous carbonate and silicate substrates. Emphasis was given to artificially induced microstructural defects and subsequent restoration of mechanical and physical properties. Two newly engineered formulations (1) a TiO2 modified tetraethyl-orthosilicate in isopropanol with 70% active content and (2) a TiO2 modified alkyl-trialkoxysilane in isopropanol with 75% active content were compared to a commercial product (3), a solvent free tetraethyl-orthosilicate with 99% active content. Treatments were evaluated by scanning electron microscopy, mercury intrusion porosimetry, colour impact and their effect on dynamic modulus of elasticity, splitting tensile- and flexural strengths, capillary water absorption and water vapour permeability. A key outcome was that mechanical strength gain induced by treatments is primarily governed by a stone’s texture and microstructure, and secondarily by the gel deposition rate of consolidants. Likewise, the kinetics of the gel-forming reaction during curing is dependent not only on the product but also on the substrate. Therefore, the moisture related properties and the visual impact develop during time. There is no general trend on how it evolves in time, which can lead to incorrect interpretations of treatment compatibility. The results prove that wide-ranging treatment performance is obtained when applying the same products on different substrates.

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Investigations of stone consolidants by neutron imaging

Hameed

Schillinger

Rohatsch

et al. 2009

Nuclear Instruments and Methods in Physics Research Section A:

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Effects of thermal-heating cycle treatment on thermal expansion behavior of different building stones

Gräf

Jamek

Rohatsch

et al. 2013

International Journal of Rock Mechanics and Mining Sciences

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Digitized neutron imaging with high spatial resolution at a low power research reactor: Applications to steel and rock samples

Zawisky

Hameed

Dyrnjaja

et al. 2010

Nuclear Instruments and Methods in Physics Research Section B:

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Evolution of calcite surfaces upon thermal decomposition, characterized by electrokinetics, in-situ XRD, and SEM

Ban

Luxbacher

Lützenkirchen

et al. 2021

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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