From: Bibliometric analysis and visualisation of heritage buildings preservation
Article | Title | CS | LC | ACY |
---|---|---|---|---|
Kohler et al. [30] | The building stock as a research object | 189 | 3 | 9.00 |
De Rossi et al. [25] | Energy retrofit of historical buildings: theoretical and experimental investigations for the modeling of reliable performance scenarios | 138 | 33 | 11.50 |
Mazzarella [3] | Energy retrofit of historic and existing buildings. The legislative and regulatory point of view | 129 | 18 | 16.13 |
Cardell et al. [31] | Salt-induced decay in calcareous stone monuments and buildings in a marine environment in SW France | 116 | 5 | 5.80 |
Betti and Vignoli [32] | Numerical assessment of the static and seismic behavior of the basilica of Santa Maria all’Impruneta (Italy) | 108 | 9 | 9.00 |
Saisi et al. [33] | Post-earthquake continuous dynamic monitoring of the Gabbia Tower in Mantua, Italy | 108 | 9 | 13.50 |
Mısırlısoy and Günçe [34] | Adaptive reuse strategies for heritage buildings: a holistic approach | 106 | 16 | 15.14 |
Walker and PavÃa [35] | Thermal and hygric properties of insulation materials suitable for historic fabrics | 105 | 9 | 13.13 |
Cruz et al. [36] | Guidelines for on-site assessment of historic timber structures | 105 | 9 | 13.13 |
Ascione et al. [37] | Energy retrofit of an educational building in the ancient center of Benevento | 102 | 20 | 12.75 |
Clementi et al. [38] | Assessment of seismic behavior of heritage masonry buildings using numerical modeling | 92 | 6 | 13.14 |
Huijbregts et al. [39] | A proposed method to assess the damage risk of future climate change to museum objects in historic buildings | 91 | 13 | 8.27 |
Zagorskas et al. [40] | Thermal insulation alternatives of historic brick buildings in the Baltic Sea Region | 90 | 17 | 10.00 |