| An intermingled fractal units model to evaluate pore size distribution influence on thermal conductivity values in porous materials G Pia, U Sanna Applied Thermal Engineering 65 (1-2), 330-336, 2014 | 105 | 2014 |
| A geometrical fractal model for the porosity and thermal conductivity of insulating concrete G Pia, U Sanna Construction and Building Materials 44, 551-556, 2013 | 86 | 2013 |
| An intermingled fractal units model and method to predict permeability in porous rock G Pia, U Sanna International Journal of Engineering Science 75, 31-39, 2014 | 82 | 2014 |
| A geometrical fractal model for the porosity and permeability of hydraulic cement pastes C Atzeni, G Pia, U Sanna Construction and Building Materials 24 (10), 1843-1847, 2010 | 81 | 2010 |
| Porosity and pore size distribution influence on thermal conductivity of yttria-stabilized zirconia: experimental findings and model predictions G Pia, L Casnedi, U Sanna Ceramics International 42 (5), 5802-5809, 2016 | 73 | 2016 |
| A fractal model of the porous microstructure of earth-based materials C Atzeni, G Pia, U Sanna, N Spanu Construction and Building Materials 22 (8), 1607-1613, 2008 | 67 | 2008 |
| Porous ceramic materials by pore-forming agent method: an intermingled fractal units analysis and procedure to predict thermal conductivity G Pia, L Casnedi, U Sanna Ceramics International 41 (5), 6350-6357, 2015 | 59 | 2015 |
| Intermingled fractal units model and electrical equivalence fractal approach for prediction of thermal conductivity of porous materials G Pia, U Sanna Applied Thermal Engineering 61 (2), 186-192, 2013 | 57 | 2013 |
| On the elastic deformation properties of porous ceramic materials obtained by pore-forming agent method G Pia, L Casnedi, M Ionta, U Sanna Ceramics International 41 (9), 11097-11105, 2015 | 51 | 2015 |
| Predicting capillary absorption of porous stones by a procedure based on an intermingled fractal units model G Pia, E Sassoni, E Franzoni, U Sanna International Journal of Engineering Science 82, 196-204, 2014 | 50 | 2014 |
| Coarsening of nanoporous Au: Relationship between structure and mechanical properties G Pia, F Delogu Acta Materialia 99, 29-38, 2015 | 49 | 2015 |
| Fractal modelling of medium–high porosity SiC ceramics C Atzeni, G Pia, U Sanna Journal of the European Ceramic Society 28 (14), 2809-2814, 2008 | 45 | 2008 |
| Case studies on the influence of microstructure voids on thermal conductivity in fractal porous media G Pia, U Sanna Case Studies in Thermal Engineering 2, 8-13, 2014 | 42 | 2014 |
| Surface wear resistance of chemically or thermally stabilized earth-based materials C Atzeni, G Pia, U Sanna, N Spanu Materials and Structures 41, 751-758, 2008 | 41 | 2008 |
| Pore size distribution and porosity influence on sorptivity of ceramic tiles: from experimental data to fractal modelling G Pia, C Siligardi, L Casnedi, U Sanna Ceramics International 42 (8), 9583-9590, 2016 | 36 | 2016 |
| Nanoporous Au: Statistical analysis of morphological features and evaluation of their influence on the elastic deformation behavior by phenomenological modeling G Pia, F Delogu Acta Materialia 85, 250-260, 2015 | 36 | 2015 |
| High porous yttria-stabilized zirconia with aligned pore channels: Morphology directionality influence on heat transfer G Pia Ceramics International 42 (10), 11674-11681, 2016 | 32 | 2016 |
| On the elastic deformation behavior of nanoporous metal foams G Pia, F Delogu Scripta Materialia 69 (11-12), 781-784, 2013 | 32 | 2013 |
| Thermal conductivity of porous stones treated with UV light-cured hybrid organic–inorganic methacrylic-based coating. Experimental and fractal modeling procedure G Pia, CE Corcione, R Striani, L Casnedi, U Sanna Progress in Organic Coatings 94, 105-115, 2016 | 30 | 2016 |
| Gyroidal structures as approximants to nanoporous metal foams: clues from mechanical properties G Pia, M Brun, F Aymerich, F Delogu Journal of Materials Science 52, 1106-1122, 2017 | 26 | 2017 |
Michele MasciaProfessor, Università degli Studi di CagliariVerified email at unica.it
