| Nome |
# |
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Application of a Novel Method for a Simulation of Conductivity of a Building Material in a Climatic Chamber, file e2f56ed4-baa3-3eaf-e053-3a05fe0a5d97
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896
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Water Absorption Properties of Cement Pastes: Experimental and Modelling Inspections, file e2f56ed7-71a2-3eaf-e053-3a05fe0a5d97
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639
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Processing and Investigation Methods in Mechanochemical Kinetics, file e2f56ed7-c78f-3eaf-e053-3a05fe0a5d97
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582
|
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Beni culturali dell'edilizia storica e moderna. Nuove prospettive nel recupero e nella conservazione dei materiali, file e2f56eda-0e6a-3eaf-e053-3a05fe0a5d97
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374
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Mechanical Properties of Nanoporous Au: From Empirical Evidence to Phenomenological Modeling, file e2f56ed4-2f45-3eaf-e053-3a05fe0a5d97
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351
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Non-monotonic variation of the grain size in Cu nanopowders subjected to ball milling, file e2f56ed6-edc3-3eaf-e053-3a05fe0a5d97
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147
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Grain boundary design based on fractal theory to improve intergranular corrosion resistance of TWIP steels, file e2f56ed8-bcaa-3eaf-e053-3a05fe0a5d97
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131
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Ag surface segregation in nanoporous Au catalysts during CO oxidation, file e2f56ed7-9b27-3eaf-e053-3a05fe0a5d97
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125
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Nurses’ behavior regarding pain treatment in an emergency department: A single-center observational study, file e2f56ed9-79b7-3eaf-e053-3a05fe0a5d97
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121
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AN INTRODUCTION to FRACTAL-BASED APPROACHES in UNCONVENTIONAL RESERVOIRS - PART i, file e2f56ed8-d841-3eaf-e053-3a05fe0a5d97
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101
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Fabrication of nanoporous al by vapor-phase dealloying: Morphology features, mechanical properties and model predictions, file e2f56eda-6d33-3eaf-e053-3a05fe0a5d97
|
90
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An introduction to fractal-based approaches in unconventional reservoirs — Part II, file e2f56ed8-8169-3eaf-e053-3a05fe0a5d97
|
88
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|
Milling Dynamics and Propagation of Mechanically Activated Self-Sustaining Reactions, file e2f56ed9-79a8-3eaf-e053-3a05fe0a5d97
|
71
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Calcareous stones in cultural heritage. A fractal model for predicting thermal conductivity, file e2f56ed4-3143-3eaf-e053-3a05fe0a5d97
|
29
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New Materials and Technologies for Durability and Conservation of Building Heritage, file 62c329a5-c242-4de6-8e29-ba5933259c13
|
27
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Thermal conductivity of porous building materials: An exploration of new challenges in fractal modeling solutions, file 012cedee-2606-4039-9b8d-18411cafe164
|
26
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|
An Updated Review: Opuntia ficus indica (OFI) Chemistry and Its Diverse Applications, file c1e99feb-1aff-4e33-b18e-498414d29bf7
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20
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Hardening of Nanoporous Au Induced by Exposure to Different Gaseous Environments, file e2f56eda-a9c6-3eaf-e053-3a05fe0a5d97
|
16
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Degradation phenomena of Templo Pintado painted plasters, file 3ebaed5d-5f06-4ac8-b63b-9d4bb818e28a
|
14
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Stable CsPbBr3 Nanocrystals-Decorated Nanoporous Gold for Optoelectronic Applications, file 57263abe-83fd-4e7e-a258-8db3f502abcf
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14
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Nanoporous Au foams: variation of effective Young's modulus with ligament size, file e2f56ed6-e4f5-3eaf-e053-3a05fe0a5d97
|
13
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Estimation of Nanoporous Au Young's Modulus from Serial Block Face-SEM 3D-Characterisation, file 50a27778-1102-444a-b987-1d1eefeb9733
|
12
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Stiffening of nanoporous gold: experiment, simulation and theory, file 60854cab-7785-424f-a5cf-511ff79bd552
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12
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Effects of the Parent Alloy Microstructure on the Thermal Stability of Nanoporous Au, file cda23970-0794-46b3-ab99-e2e59e7e6e0b
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10
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Editorial for Special Issue “Fractal and Fractional in Cement-Based Materials”, file e2f56eda-a969-3eaf-e053-3a05fe0a5d97
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10
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Coating's influence on wind erosion of porous stones used in the Cultural Heritage of Southern Italy: Surface characterisation and resistance, file 63a23beb-63eb-4c48-9679-e5b582652030
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9
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Thermal Properties of Eco-Friendly Earthen Materials Stabilized with Bio-Based Polymers: Experimental Data and Modeling Procedure for Improving Mix-Design, file e9629b25-c30c-4bb0-9dfd-53a3e9136952
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9
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Chemical effects induced by the mechanical processing of granite powder, file e4943e05-e895-434e-a0f8-1b43ee55b296
|
7
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Solid Particle Erosion of a Limestone Target Surface under Controlled Conditions, file 9749dec0-014f-4dc1-88d1-d71cf4155a67
|
6
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Thermal properties of porous stones in cultural heritage: Experimental findings and predictions using an intermingled fractal units model, file e2f56ed5-3d2e-3eaf-e053-3a05fe0a5d97
|
6
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Gyroidal structures as approximants to nanoporous metal foams: clues from mechanical properties, file e2f56ed5-7231-3eaf-e053-3a05fe0a5d97
|
6
|
|
Porosity effects on water vapour permeability in earthen materials: experimental evidence and modelling description, file e2f56ed8-85df-3eaf-e053-3a05fe0a5d97
|
6
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|
Coarsening of nanoporous Au: Relationship between structure and mechanical properties, file e2f56ed4-2af4-3eaf-e053-3a05fe0a5d97
|
5
|
|
A phenomenological approach to yield strength in nanoporous metal foams, file e2f56ed4-30d6-3eaf-e053-3a05fe0a5d97
|
5
|
|
Thermally and catalytically induced coarsening of nanoporous Au, file e2f56ed5-3d32-3eaf-e053-3a05fe0a5d97
|
5
|
|
Stiffening of nanoporous Au induced by water physisorption, file e2f56ed7-5acd-3eaf-e053-3a05fe0a5d97
|
5
|
|
Thermal behaviour of clay ceramics obtained by Spark Plasma Sintering: is fractal geometry a new possible road to design porous structures?, file e2f56ed9-3af8-3eaf-e053-3a05fe0a5d97
|
5
|
|
Coupling of mechanical deformation and reaction in mechanochemical transformations, file e2f56eda-2511-3eaf-e053-3a05fe0a5d97
|
5
|
|
Greening earthen plasters: a study on bio-sourced polymers as stabilizers, file b7b00de8-aa00-4214-b31e-6dfa81d4036f
|
4
|
|
Mechanical behavior of nanoporous Au with fine ligaments, file e2f56ed4-260e-3eaf-e053-3a05fe0a5d97
|
4
|
|
Un moderno processo produttivo di mattoni in terra cruda, file e2f56ed4-2d72-3eaf-e053-3a05fe0a5d97
|
4
|
|
Heat transfer in high porous alumina: Experimental data interpretation by different modelling approaches, file e2f56ed6-8b2f-3eaf-e053-3a05fe0a5d97
|
4
|
|
Stiffening of nanoporous Au induced by water physisorption, file e2f56ed7-8928-3eaf-e053-3a05fe0a5d97
|
4
|
|
Microstructural evolution in porous ceramics subjected to freezing-thawing cycles: modelling experimental outcomes, file e2f56ed8-847c-3eaf-e053-3a05fe0a5d97
|
4
|
|
Binders alternative to Portland cement and waste management for sustainable construction—part 1, file e2f56ed8-a607-3eaf-e053-3a05fe0a5d97
|
4
|
|
Binders alternative to Portland cement and waste management for sustainable construction – Part 2, file e2f56ed8-a60c-3eaf-e053-3a05fe0a5d97
|
4
|
|
Weathering of earth-painted surfaces: Environmental monitoring and artificial aging, file e2f56eda-b274-3eaf-e053-3a05fe0a5d97
|
4
|
|
Kinetics of Grain Size Reduction in Minerals Undergoing Ball Milling, file 0ce81e06-76f9-48ce-ad8d-0a1304e967b3
|
3
|
|
On the elastic deformation properties of porous ceramic materials obtained by pore-forming agent method, file e2f56ed4-260f-3eaf-e053-3a05fe0a5d97
|
3
|
|
Determinazione della permeabilità di materiali lapidei per l’edilizia storica attraverso un modello frattale della microstruttura porosa, file e2f56ed4-2e31-3eaf-e053-3a05fe0a5d97
|
3
|
|
Case studies on the influence of microstructure voids on thermal conductivity in fractal porous media, file e2f56ed4-313a-3eaf-e053-3a05fe0a5d97
|
3
|
|
Kinetics of nanoporous Au formation by chemical dealloying, file e2f56ed4-31e5-3eaf-e053-3a05fe0a5d97
|
3
|
|
null, file e2f56ed7-67a7-3eaf-e053-3a05fe0a5d97
|
3
|
|
Bending strength of porous ceramics tiles: Bounds and estimates of effective properties of an Intermingled Fractal Units' model, file e2f56ed7-cc40-3eaf-e053-3a05fe0a5d97
|
3
|
|
A mapping approach to pattern formation in the early stages of mechanical alloying, file e2f56ed8-7947-3eaf-e053-3a05fe0a5d97
|
3
|
|
Microstructural evolution in porous ceramics subjected to freezing-thawing cycles: modelling experimental outcomes, file e2f56ed8-881c-3eaf-e053-3a05fe0a5d97
|
3
|
|
From nature geometry to material design: advanced fractal nature analysis for predicting experimental elastic properties, file e2f56ed9-696b-3eaf-e053-3a05fe0a5d97
|
3
|
|
Degradation phenomena of Templo Pintado painted plasters, file 18bfea2f-c57f-4ec4-8bdd-ae5178b01871
|
2
|
|
Nanoporous Au: Statistical analysis of morphological features and evaluation of their influence on the elastic deformation behavior by phenomenological modeling, file e2f56ed4-267d-3eaf-e053-3a05fe0a5d97
|
2
|
|
null, file e2f56ed4-29ed-3eaf-e053-3a05fe0a5d97
|
2
|
|
An intermingled fractal units model and method to predict permeability in porous rock, file e2f56ed4-2a18-3eaf-e053-3a05fe0a5d97
|
2
|
|
An intermingled fractal units model to evaluate pore size distribution influence on thermal conductivity values in porous materials, file e2f56ed4-2d19-3eaf-e053-3a05fe0a5d97
|
2
|
|
Porous ceramic materials by pore-forming agent method: An intermingled fractal units analysis and procedure to predict thermal conductivity, file e2f56ed4-30d7-3eaf-e053-3a05fe0a5d97
|
2
|
|
Fluid flow in complex porous media: Experimental data and IFU model predictions for water vapour permeability, file e2f56ed5-4163-3eaf-e053-3a05fe0a5d97
|
2
|
|
High porous yttria-stabilized zirconia with aligned pore channels: Morphology directionality influence on heat transfer, file e2f56ed5-466c-3eaf-e053-3a05fe0a5d97
|
2
|
|
Porosity and pore size distribution influence on thermal conductivity of yttria-stabilized zirconia: Experimental findings and model predictions, file e2f56ed5-466e-3eaf-e053-3a05fe0a5d97
|
2
|
|
Surface stresses and Young’s modulus in nanoporous Au foams, file e2f56ed5-71f7-3eaf-e053-3a05fe0a5d97
|
2
|
|
Pore size distribution and porosity influence on Sorptivity of ceramic tiles: From experimental data to fractal modelling, file e2f56ed5-f873-3eaf-e053-3a05fe0a5d97
|
2
|
|
Differential damage in the semi-confined Munazio Ireneo cubicle in Cagliari (Sardinia): a correlation between damage and microclimate, file e2f56ed6-bbe0-3eaf-e053-3a05fe0a5d97
|
2
|
|
Microscopic kinetic information from Ag oxalate mechanochemistry in ball drop experiments, file e2f56ed9-5ede-3eaf-e053-3a05fe0a5d97
|
2
|
|
A Fuzzy model for studying degradation kinetics of Genna Maria nuragic building, file 65f30b34-2e3c-49c4-8aff-143b36f88b03
|
1
|
|
A fractal model of the porous microstructure of earth-based materials, file e2f56ed3-8633-3eaf-e053-3a05fe0a5d97
|
1
|
|
A geometrical fractal model for the porosity and thermal conductivity of insulating concrete, file e2f56ed4-2683-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed4-28c5-3eaf-e053-3a05fe0a5d97
|
1
|
|
Predicting capillary absorption of porous stones by a procedure based on an intermingled fractal units model, file e2f56ed4-2bf0-3eaf-e053-3a05fe0a5d97
|
1
|
|
Intermingled fractal units model and electrical equivalence fractal approach for prediction of thermal conductivity of porous materials, file e2f56ed4-2bf2-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed4-2d22-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed4-2e36-3eaf-e053-3a05fe0a5d97
|
1
|
|
Pore size distribution influence on suction properties of calcareous stones in cultural heritage: Experimental data and model predictions, file e2f56ed5-40f7-3eaf-e053-3a05fe0a5d97
|
1
|
|
Hardening of nanoporous Au foams induced by surface chemistry, file e2f56ed6-8b31-3eaf-e053-3a05fe0a5d97
|
1
|
|
Coating's influence on water vapour permeability of porous stones typically used in cultural heritage of Mediterranean area: Experimental tests and model controlling procedure, file e2f56ed7-9454-3eaf-e053-3a05fe0a5d97
|
1
|
|
Fractal and multifractal analysis of fracture surfaces caused by hydrogen embrittlement in high-Mn twinning/transformation-induced plasticity steels, file e2f56ed8-5450-3eaf-e053-3a05fe0a5d97
|
1
|
|
Binders alternative to Portland cement and waste management for sustainable construction – Part 2, file e2f56ed8-82ca-3eaf-e053-3a05fe0a5d97
|
1
|
|
Coarsening of nanoporous Au during catalytic CO oxidation, file e2f56ed8-8ad7-3eaf-e053-3a05fe0a5d97
|
1
|
|
Grain size reduction in Cu powders subjected to ball milling and ball drop experiments, file e2f56ed8-bd12-3eaf-e053-3a05fe0a5d97
|
1
|
|
Thermal properties of porous stones in cultural heritage: Experimental findings and predictions using an intermingled fractal units model, file e2f56ed9-fa20-3eaf-e053-3a05fe0a5d97
|
1
|
|
Morphology influence on elastic deformation behaviour of high porous ceramics. Experimental and phenomenological model predictions, file e2f56eda-8767-3eaf-e053-3a05fe0a5d97
|
1
|
| Totale |
4.107 |