The current interest in molecular dimensions with the insertion of micro and nanotechnologies has given rise to innovative production techniques of components for the building sector. These components combine high compound performance with environmental sustainability and eco-efficiency. In contrast with other fields of civil engineering and building recovery technology, the application of composite nanomaterials employed to reinforce wooden structures is a little known technique which requires, albeit, partially, to be fully tested before being applied in large scale. This holds true mainly for existing wood components (elements); with regards to new wooden elements, there is a much greater wealth of experience.
Use of nanotechnologies in cultural heritage for the efficiency of maintenance systems in wooden built heritage: innovative technologies for restoration
LADIANA, DANIELA;DI SIVO, Michele
2007-01-01
Abstract
The current interest in molecular dimensions with the insertion of micro and nanotechnologies has given rise to innovative production techniques of components for the building sector. These components combine high compound performance with environmental sustainability and eco-efficiency. In contrast with other fields of civil engineering and building recovery technology, the application of composite nanomaterials employed to reinforce wooden structures is a little known technique which requires, albeit, partially, to be fully tested before being applied in large scale. This holds true mainly for existing wood components (elements); with regards to new wooden elements, there is a much greater wealth of experience.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.