Il mio Profilo
Giuseppe Carbone
Professore Ordinario
ING-IND/13 MECCANICA APPLICATA ALLE MACCHINE

Home

Giuseppe Carbone was born in Bitonto, Bari - Italy on August 9, 1971. He is currently Full Professor of Applied Mechanics - Politecnico di Bari - Italy. He received the Mechanical Engineering Degree on Fenruary 1998 and in February 2002 the Ph. D. degree at Politecnico di Bari Italy. He is Rector’s Delegate for the Scientific Research and Technology Transfer. Since In 2010 he has founded the Tribology Lab (http://tribolab.poliba.it) of which he is the Scientific Director. He is permanent Academic Visitor at Imperial College London, from 2003 to 2009 he has been Visiting Scientist and Research Fellow at Juelich Research Center – Juelich (D) and at Eindhoven University of Technology – Eindhoven (NL). His scientific interests focus mainly on tribology, biomimetics, superhydrophobicity, mechanical transmissions. Since 2011 he is member of the workgroup on the Nanotechnology of the Inter-Polytechnic School of Doctorate. In 2009 he has been component of the Committee of the Ph.D. course in Manufacturing Systems and Robotics - Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland. He is members of the editorial board of Tribology International – Elsevier, of ISRN Tribology, of Biomimetics MDPI (ISSN 2313-7673). He is also Guest Editor of Biomimetics MDPI. He acts as referee of more than 50 International Journals. He is also regularly invited as key-note speaker, and acts as associate editor or as member of the scientific board of important international conferences. He is also regularly invited to publish his research on important international journals and books. He has authored 200 publication of which about 100 in ISI or SCOPUS archive journals.

...
+39 080 596 2746
+39 080 596 2777
Sezione Progettazione Meccanica
Viale Japigia 182

Pubblicazioni

Il seguente elenco è solo una parte della Produzione scientifica del docente.
Per maggiori informazioni consultare il Catalogo Istituzionale dei prodotti della Ricerca (IRIS) .


  1. Putignano Carmine, Carbone Giuseppe and Dini Daniele. Theory of reciprocating contact for viscoelastic solids. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS 93, 2016. URL, DOI BibTeX

    @article{ 11589_72983,
    	author = "Putignano Carmine and Carbone Giuseppe and Dini Daniele",
    	title = "Theory of reciprocating contact for viscoelastic solids",
    	year = 2016,
    	journal = "PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS",
    	volume = 93,
    	keywords = "Condensed Matter Physics; Statistical and Nonlinear Physics; Statistics and Probability",
    	url = "http://harvest.aps.org/bagit/articles/10.1103/PhysRevE.93.043003/apsxml",
    	doi = "10.1103/PhysRevE.93.043003"
    }
    
  2. Menga N, Afferrante L and Carbone G. Adhesive and adhesiveless contact mechanics of elastic layers on slightly wavy rigid substrates. INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES 88-89:101–109, 2016. URL, DOI BibTeX

    @article{ 11589_72981,
    	author = "Menga N and Afferrante L and Carbone G",
    	title = "Adhesive and adhesiveless contact mechanics of elastic layers on slightly wavy rigid substrates",
    	year = 2016,
    	journal = "INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES",
    	volume = "88-89",
    	keywords = "Adhesion; Coatings; Contact mechanics; Pressure sensitive adhesives; Mechanical Engineering; Mechanics of Materials; Materials Science (all); Condensed Matter Physics; Applied Mathematics; Modeling and Simulation",
    	url = "journals.elsevier.com/international-journal-of-solids-and-structures/",
    	doi = "10.1016/j.ijsolstr.2016.03.016",
    	pages = "101--109"
    }
    
  3. Carbone Giuseppe, Pierro Elena and Recchia Giuseppina. Erratum: Loading-unloading hysteresis loop of randomly rough adhesive contacts (Physical Review E - Statistical, Nonlinear, and Soft Matter Physics (2015) 92 (062404)). PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS 93, 2016. URL, DOI BibTeX

    @article{ 11589_72982,
    	author = "Carbone Giuseppe and Pierro Elena and Recchia Giuseppina",
    	title = "Erratum: Loading-unloading hysteresis loop of randomly rough adhesive contacts (Physical Review E - Statistical, Nonlinear, and Soft Matter Physics (2015) 92 (062404))",
    	year = 2016,
    	journal = "PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS",
    	volume = 93,
    	abstract = "This corrects the article DOI: 10.1103/PhysRevE.92.062404.",
    	keywords = "Condensed Matter Physics; Statistical and Nonlinear Physics; Statistics and Probability",
    	url = "http://harvest.aps.org/bagit/articles/10.1103/PhysRevE.93.049908/apsxml",
    	doi = "10.1103/PhysRevE.93.049908"
    }
    
  4. Carbone Giuseppe, Pierro Elena and Recchia Giuseppina. Loading-unloading hysteresis loop of randomly rough adhesive contacts. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS 92, 2015. URL, DOI BibTeX

    @article{ 11589_62865,
    	author = "Carbone Giuseppe and Pierro Elena and Recchia Giuseppina",
    	title = "Loading-unloading hysteresis loop of randomly rough adhesive contacts",
    	year = 2015,
    	journal = "PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS",
    	volume = 92,
    	keywords = "Condensed Matter Physics; Statistical and Nonlinear Physics; Statistics and Probability",
    	url = "http://harvest.aps.org/bagit/articles/10.1103/PhysRevE.92.062404/apsxml",
    	doi = "10.1103/PhysRevE.92.062404"
    }
    
  5. Carbone Giuseppe, Pierro Elena and Recchia Giuseppina. Loading-unloading hysteresis loop of randomly rough adhesive contacts. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS 92:1–8, 2015. DOI BibTeX

    @article{ 11589_58624,
    	author = "Carbone Giuseppe and Pierro Elena and Recchia Giuseppina",
    	title = "Loading-unloading hysteresis loop of randomly rough adhesive contacts",
    	year = 2015,
    	journal = "PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS",
    	volume = 92,
    	abstract = "We investigate the loading and unloading behavior of soft solids in adhesive contact with randomly rough profiles. The roughness is assumed to be described by a self-affine fractal on a limited range of wave vectors. A spectral method is exploited to generate such randomly rough surfaces. The results are statistically averaged, and the calculated contact area and applied load are shown as a function of the penetration, for loading and unloading conditions. We found that the combination of adhesion forces and roughness leads to a hysteresis loading-unloading loop. This shows that energy can be lost simply as a consequence of roughness and van der Waals forces, as in this case a large number of local energy minima exist and the system may be trapped in metastable states. We numerically quantify the hysteretic loss and assess the influence of the surface statistical properties and the energy of adhesion on the hysteresis process.",
    	doi = "10.1103/PhysRevE.92.062404",
    	pages = "1--8"
    }
    
  6. Putignano C, Carbone G and Dini D. Mechanics of rough contacts in elastic and viscoelastic thin layers. INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES 69-70:507–517, 2015. URL, DOI BibTeX

    @article{ 11589_58549,
    	author = "Putignano C and Carbone G and Dini D",
    	title = "Mechanics of rough contacts in elastic and viscoelastic thin layers",
    	year = 2015,
    	journal = "INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES",
    	volume = "69-70",
    	abstract = "Contact mechanics between rough solids usually relies on the half-space approximation, which assumes that the contact area dimension is much smaller than the thickness of the layers of materials that characterize the surfaces of the contacting bodies. However, such simplifying assumption is often inadequate when industrially relevant applications are considered, in particular those of biomechanical interest. Indeed, a large variety of systems, including not only classical engineering applications such as gear boxes, shafts, tyres, etc., but also biological tissues such as human skin, is characterized by superficial coatings; very often the mechanical properties of these coatings are very different from those of the bulk region of the bodies in contact. The aim of this paper is to shed light on the role played by the thickness of the layer of material used as a coating, with specific focus on the contact between a rigid rough surface and a thin deformable layer bonded to a rigid substrate. Starting from a recently developed boundary element formulation (Carbone and Putignano, 2013), we derive a methodology which accounts for finite thickness by a corrective coefficient modulating the classical Greens function, and extends our analyses to periodic domains. This enables to avoid border effects and provides an innovative tool to tackle viscoelastic contacts with realistic roughness. This is exploited to perform a thorough investigation of the mechanisms responsible for frictional losses in layered systems characterized by different materials, thickness and loading conditions. Results show that decreasing the layer thickness corresponds to an increase in the contact stiffness. Furthermore, in the case of viscoelastic layer, particular attention has to be paid to the changes in the viscoelastic dissipation due to the finite thickness of the surface layer.",
    	keywords = "Boundary element methods; Finite thickness; Viscoelastic contact mechanics; Mechanical Engineering; Mechanics of Materials; Materials Science (all); Condensed Matter Physics; Applied Mathematics; Modeling and Simulation",
    	url = "journals.elsevier.com/international-journal-of-solids-and-structures/",
    	doi = "10.1016/j.ijsolstr.2015.04.034",
    	pages = "507--517"
    }
    
  7. Carbone Giuseppe and Giannoccaro Ilaria. Model of human collective decision-making in complex environments. THE EUROPEAN PHYSICAL JOURNAL. B, CONDENSED MATTER PHYSICS 88:339–348, 2015. DOI BibTeX

    @article{ 11589_59156,
    	author = "Carbone Giuseppe and Giannoccaro Ilaria",
    	title = "Model of human collective decision-making in complex environments",
    	year = 2015,
    	journal = "THE EUROPEAN PHYSICAL JOURNAL. B, CONDENSED MATTER PHYSICS",
    	volume = 88,
    	abstract = "A continuous-time Markov process is proposed to analyze how a group of humans solves a complex task, consisting in the search of the optimal set of decisions on a fitness landscape. Individuals change their opinions driven by two different forces: (i) the self-interest, which pushes them to increase their own fitness values, and (ii) the social interactions, which push individuals to reduce the diversity of their opinions in order to reach consensus. Results show that the performance of the group is strongly affected by the strength of social interactions and by the level of knowledge of the individuals. Increasing the strength of social interactions improves the performance of the team. However, too strong social interactions slow down the search of the optimal solution and worsen the performance of the group. In particular, we find that the threshold value of the social interaction strength, which leads to the emergence of a superior intelligence of the group, is just the critical threshold at which the consensus among the members sets in. We also prove that a moderate level of knowledge is already enough to guarantee high performance of the group in making decisions.",
    	doi = "10.1140/epjb/e2015-60609-0",
    	pages = "339--348"
    }
    
  8. Bottiglione F, Carbone G and Persson B N J. Fluid contact angle on solid surfaces: Role of multiscale surface roughness. THE JOURNAL OF CHEMICAL PHYSICS 143, 2015. URL, DOI BibTeX

    @article{ 11589_58440,
    	author = "Bottiglione F and Carbone G and Persson B N J",
    	title = "Fluid contact angle on solid surfaces: Role of multiscale surface roughness",
    	year = 2015,
    	journal = "THE JOURNAL OF CHEMICAL PHYSICS",
    	volume = 143,
    	keywords = "Physics and Astronomy (all); Physical and Theoretical Chemistry",
    	url = "http://scitation.aip.org/content/aip/journal/jcp",
    	doi = "10.1063/1.4932104"
    }
    
  9. Di Mundo Rosa, Bottiglione Francesco, Palumbo Fabio, Favia Pietro and Carbone Giuseppe. Sphere-on-cone microstructures on Teflon surface: Repulsive behavior against impacting water droplets. MATERIALS & DESIGN, 2015. URL, DOI BibTeX

    @article{ 11589_58165,
    	author = "Di Mundo Rosa and Bottiglione Francesco and Palumbo Fabio and Favia Pietro and Carbone Giuseppe",
    	title = "Sphere-on-cone microstructures on Teflon surface: Repulsive behavior against impacting water droplets",
    	year = 2015,
    	journal = "MATERIALS & DESIGN",
    	abstract = "Teflon (polytetrafluoroethylene) surface has been modified with a single step oxygen-fed plasma process resulting in the formation of peculiar “sphere-on-cone” micro-scale relieves. Though presenting some irregularity and random distribution, surfaces with a steep variation of topography can be obtained by properly tuning plasma process parameters. We show that, though exhibiting similar superhydrophobic properties in terms of water contact angle, the ability to withstand vertically impacting water droplets falling at medium/high impacting speeds can be sensitively different. In particular, high repulsive properties characterize surfaces with denser and smaller relieves. In the other cases the occurrence of pinning events results in longer time-of-contact and a shorter time-of-flight of the drop. Interestingly, the impact pressure values at which pinning transitions have been observed are consistent with critical pressures for penetration calculated by modeling the surface as an array of spheres. When critical pressure is exceeded, and water penetration is expected, reversible or non reversible pinning can be explained on the basis of the wetting/de-wetting cycle within the sphere-on-cone's layer.",
    	url = "http://www.sciencedirect.com/science/article/pii/S0264127515308352",
    	doi = "10.1016/j.matdes.2015.11.094"
    }
    
  10. Afferrante L and Carbone G. Statistical theory of wetting of liquid drops on superhydrophobic randomly rough surfaces. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS 92, 2015. URL, DOI BibTeX

    @article{ 11589_55820,
    	author = "Afferrante L and Carbone G",
    	title = "Statistical theory of wetting of liquid drops on superhydrophobic randomly rough surfaces",
    	year = 2015,
    	journal = "PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS",
    	volume = 92,
    	keywords = "Condensed Matter Physics; Statistical and Nonlinear Physics; Statistics and Probability",
    	url = "http://harvest.aps.org/bagit/articles/10.1103/PhysRevE.92.042407/apsxml",
    	doi = "10.1103/PhysRevE.92.042407"
    }
    
  11. Afferrante Luciano, Grimaldi Gioacchino, Demelio Giuseppe and Carbone Giuseppe. Direction-dependent adhesion of micro-walls based biomimetic adhesives. INTERNATIONAL JOURNAL OF ADHESION AND ADHESIVES 61:93–98, 2015. DOI BibTeX

    @article{ 11589_55818,
    	author = "Afferrante Luciano and Grimaldi Gioacchino and Demelio Giuseppe and Carbone Giuseppe",
    	title = "Direction-dependent adhesion of micro-walls based biomimetic adhesives",
    	year = 2015,
    	journal = "INTERNATIONAL JOURNAL OF ADHESION AND ADHESIVES",
    	volume = 61,
    	keywords = "Adhesion; Biomimetic surfaces; Crack propagation; Crack trapping; Chemical Engineering (all); Biomaterials; Polymers and Plastics",
    	doi = "10.1016/j.ijadhadh.2015.05.007",
    	pages = "93--98"
    }
    
  12. Bottiglione F and Carbone G. An effective medium approach to predict the apparent contact angle of drops on super-hydrophobic randomly rough surfaces. JOURNAL OF PHYSICS. CONDENSED MATTER 27, 2015. DOI BibTeX

    @article{ 11589_5890,
    	author = "Bottiglione F and Carbone G",
    	title = "An effective medium approach to predict the apparent contact angle of drops on super-hydrophobic randomly rough surfaces",
    	year = 2015,
    	journal = "JOURNAL OF PHYSICS. CONDENSED MATTER",
    	volume = 27,
    	doi = "10.1088/0953-8984/27/1/015009"
    }
    
  13. Bottiglione F, Di Mundo R, Soria L and Carbone G. Wenzel to Cassie Transition in Superhydrophobic Randomly Rough Surfaces. NANOSCIENCE AND NANOTECHNOLOGY LETTERS 7:74–78, 2015. URL, DOI BibTeX

    @article{ 11589_1263,
    	author = "Bottiglione F and Di Mundo R and Soria L and Carbone G",
    	title = "Wenzel to Cassie Transition in Superhydrophobic Randomly Rough Surfaces",
    	year = 2015,
    	journal = "NANOSCIENCE AND NANOTECHNOLOGY LETTERS",
    	volume = 7,
    	url = "http://www.ingentaconnect.com/content/asp/nnl/2015/00000007/00000001/art00014?token=0036123060275c277b42573a6747486b343e2c2a796d592f3f3b2c",
    	doi = "10.1166/nnl.2015.1922",
    	pages = "74--78"
    }
    
  14. Caramia G, Carbone G and De Palma P. Hydrodynamic lubrication of micro-textured surfaces: Two dimensional CFD-analysis. TRIBOLOGY INTERNATIONAL 88:162–169, 2015. DOI BibTeX

    @article{ 11589_894,
    	author = "Caramia G and Carbone G and De Palma P",
    	title = "Hydrodynamic lubrication of micro-textured surfaces: Two dimensional CFD-analysis",
    	year = 2015,
    	journal = "TRIBOLOGY INTERNATIONAL",
    	volume = 88,
    	abstract = {This paper provides a numerical study of the hydrodynamic lubrication between two parallel surfaces with micro-texturing. The two-dimensional Navier-Stokes equations for an isothermal incompressible steady flow have been considered as a suitable model. A wide variety of geometries characterised by different micro-cavity depth and width, and different gap values have been analysed in order to study the influence of these parameters on the drag force magnitude. A detailed analysis of flow velocity profiles and pressure distributions has been performed to study the forces acting on the textured surface, providing an explanation for the maximum drag reduction achievable with a single-phase lubrication fluid. Furthermore, results indicate that three regions exist, depending on the cavity depth, in which a different flow dynamics occurs and the cavities have a different influence on the drag force. Finally, an "optimal" value of the depth has been found, for which the pressure reaches a minimum value and the probability of cavitation is maximised. © 2015 Elsevier Ltd. All rights reserved.},
    	doi = "10.1016/j.triboint.2015.03.019",
    	pages = "162--169"
    }
    
  15. Caramia G, Carbone G and De Palma P. A two-dimensional numerical study of hydrodynamic Lubrication of Micro- Textured Surfaces. In Ecotrib 2015, Book of Abstracts. 2015. BibTeX

    @conference{ 11589_25122,
    	author = "Caramia G and Carbone G and De Palma P",
    	title = "A two-dimensional numerical study of hydrodynamic Lubrication of Micro- Textured Surfaces",
    	year = 2015,
    	booktitle = "Ecotrib 2015, Book of Abstracts"
    }
    
  16. GIANNOCCARO I and CARBONE G. Collaborative problem solving in complex settings: Coupling NK model with the Ising/Glauber dynamics. In Proceedings of the 6th Workshop on Complex Networks, CompleNet 2015. 2015. BibTeX

    @conference{ 11589_21829,
    	author = "GIANNOCCARO I and CARBONE G",
    	title = "Collaborative problem solving in complex settings: Coupling NK model with the Ising/Glauber dynamics",
    	year = 2015,
    	booktitle = "Proceedings of the 6th Workshop on Complex Networks, CompleNet 2015"
    }
    
  17. MENGA N and CARBONE G. Adhesive elastic periodic contacts: the role of interfacial friction and slab thickness. In Proceedings of EUROMECH COLLOQUIUM Contact Mechanics and Coupled Problems in Surface Phenomena. 2015. BibTeX

    @conference{ 11589_21845,
    	author = "MENGA N and CARBONE G",
    	title = "Adhesive elastic periodic contacts: the role of interfacial friction and slab thickness",
    	year = 2015,
    	booktitle = "Proceedings of EUROMECH COLLOQUIUM Contact Mechanics and Coupled Problems in Surface Phenomena"
    }
    
  18. PUTIGNANO C and CARBONE G. Viscoelastic Contact Problems challenges and recent advancements. In Proceedings of EUROMECH COLLOQUIUM Contact Mechanics and Coupled Problems in Surface Phenomena. 2015. BibTeX

    @conference{ 11589_18356,
    	author = "PUTIGNANO C and CARBONE G",
    	title = "Viscoelastic Contact Problems challenges and recent advancements",
    	year = 2015,
    	booktitle = "Proceedings of EUROMECH COLLOQUIUM Contact Mechanics and Coupled Problems in Surface Phenomena"
    }
    
  19. CARBONE G and PUTIGNANO C. Predicting Friction in Viscoelastic Materials: Theory and Experiments. In Proceedings of 14th International Colloquium Tribology. 2014. BibTeX

    @conference{ 11589_18346,
    	author = "CARBONE G and PUTIGNANO C",
    	title = "Predicting Friction in Viscoelastic Materials: Theory and Experiments",
    	year = 2014,
    	booktitle = "Proceedings of 14th International Colloquium Tribology"
    }
    
  20. MENGA N, CONTURSI T and CARBONE G. Analysis of the elastic adhesive contact in presence of interfacial friction. In Proceedings of 4° Workshop AIT. 2014. BibTeX

    @conference{ 11589_22462,
    	author = "MENGA N and CONTURSI T and CARBONE G",
    	title = "Analysis of the elastic adhesive contact in presence of interfacial friction",
    	year = 2014,
    	booktitle = "Proceedings of 4° Workshop AIT"
    }
    

 

Attività Didattiche

Meccanica applicata alle macchine I 2° modulo (Taranto) [Laurea in Ingegneria Meccanica] (Secondo semestre - Secondo Anno)


Meccanica applicata alle macchine II [Laurea Magistrale in Ingegneria Meccanica] (primo semestre - primo anno)


Dinamica e simulazione di aeromobili [Laurea Magistrale in Ingegneria Meccanica] (Secondo semestre - primo Anno)


Per maggiori informazioni consultare il sito di Ateneo e il portale della Didattica .

Attività di Ricerca

PE8 Products and process engineering: product design, process design and control, construction methods, civil engineering, energy systems, material engineering
PE8_7 Mechanical and manufacturing engineering (shaping, mounting, joining, separation)
PE8_8 Materials engineering (metals, ceramics, polymers, composites, etc.)
PE8_4 Computational engineering
Contatti

DIPARTIMENTO DI
MECCANICA, MATEMATICA E MANAGEMENT

Viale Japigia 182 - 70126 Bari

  +39 080 596 2752
  +39 080 596 2741
  PECQuesto indirizzo email è protetto dagli spambots. È necessario abilitare JavaScript per vederlo.
Politecnico di Bari
Catalogo dei prodotti della Ricerca
Poliba Web mail