Resilience of Historic Residential Areas Subjected to Natural Disasters

The paper presents decision support tools developed for municipalities and historic city managers. These exploit the categorization of cultural heritage assets according to their vulnerability in disaster situations. A manual guiding individual cultural heritage owners, users and other citizens of historic areas provides advices on how to prevent or reduce damage and loss to cultural heritage. The recommendations cover pre-disaster, during as well as post-disaster situations and concern both built and moveable heritage. All measures are illustrated with examples taken during real disaster situations. The methodology has been tested during the international research project “ProteCHt2save” supported under the Interreg CE program

Influence of Moisture Content on the Application of ND and MD Tests to Various Species of Timber Elements

Variations in environmental conditions can affect the structural performance of timber components and constructions. Especially in case of historic masonry buildings, where timber elements can be found either in roof or floor structures, intrinsic defects (e.g., knots, cracks, degradation), as well as the surrounding environmental conditions (e.g., temperature and moisture) can play an important role in the assessment of the mechanical response of the elements. In this connection, non-destructive (ND) and minor-destructive (MD) procedures are used to investigate the onsite conditions of wood, which are commonly based on either tool penetration resistance or wave transmission devices. In the paper, the influence of moisture content (MC) measured with various devices on a series of both old and new timber elements was compared. The elements made of various wood species (mainly red fir, but also white fir, pine and larch) were subjected to laboratory ND and MD testing by three research groups. Results showed the low influence of the MC on MD tests (i.e., resistance drilling and pin penetration) in comparison to the ND (i.e., sonic/ultrasonic) ones. Correlation relationships are provided, which illustrate and approximatively quantify the effect of MC for the experimentally investigated conditions and test equipment