Abstract
The conservation of historic stone buildings and sculptures is recently receiving growing attention and becoming a focus of research. However, it is difficult to estimate the effects of stone conservation, especially consolidating treatments. In this work, some biomimetic materials for stone conservation were prepared. The interaction between the protective materials and stone substrate was researched by testing their surface energy. Some thermodynamic parameters, including interfacial tension (γ fm ) and work of adhesion (W a ), were calculated. The effects of interaction between the materials and substrate on reinforcement properties were investigated. The results show that the strength of materials’ adhesion to a solid surface could be better estimated from the value of W a /γ fm . It is helpful not only to indirectly determine the mechanical properties of the reinforcing agent but also to design some materials for stone conservation on a purpose not on a rather hit-or-miss basis.
Highlights
Historic stone buildings and sculptures are a very valuable and important part of the cultural heritage of any country
The interaction between the protective materials and stone substrate was researched through testing their surface energy
It can be suggested that the strength of adhesion to a solid surface could be better estimated from the value of work of adhesion (Wa)/γfm rather than from the value of Wa from Table 3
Summary
Historic stone buildings and sculptures are a very valuable and important part of the cultural heritage of any country. Keyword: Stone conservation, Surface energy, Interface, Biomimetic materials, Consolidation, Reinforcement properties It is important to study the interaction between the materials and substrate with templates for investigating the mechanism of synthesis process and improvement of mechanical properties [8].
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