Il mio Profilo
Giuseppe Casalino
Professore Associato
ING-IND/16 TECNOLOGIE E SISTEMI DI LAVORAZIONE
Coordinatore del Corso di Laurea in Ingegneria Gestionale

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+39 080 596 2788
Sezione Tecnologie e Impianti
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. Contuzzi N, Campanelli S L, Casalino G and Ludovico A D. On the role of the Thermal Contact Conductance during the Friction Stir Welding of an AA5754-H111 butt joint. APPLIED THERMAL ENGINEERING 104:263–273, 2016. URL, DOI BibTeX

    @article{ 11589_76955,
    	author = "Contuzzi N and Campanelli S L and Casalino G and Ludovico A D",
    	title = "On the role of the Thermal Contact Conductance during the Friction Stir Welding of an AA5754-H111 butt joint",
    	year = 2016,
    	journal = "APPLIED THERMAL ENGINEERING",
    	volume = 104,
    	keywords = "Finite element analysis; Friction Stir Welding; Thermal Contact Conductance; Energy Engineering and Power Technology; Industrial and Manufacturing Engineering",
    	url = "http://www.journals.elsevier.com/applied-thermal-engineering/",
    	doi = "10.1016/j.applthermaleng.2016.05.071",
    	pages = "263--273"
    }
    
  2. Casalino Giuseppe and Mortello Michelangelo. Modeling and experimental analysis of fiber laser offset welding of Al-Ti butt joints. INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY 83:89–98, 2016. URL, DOI BibTeX

    @article{ 11589_62868,
    	author = "Casalino Giuseppe and Mortello Michelangelo",
    	title = "Modeling and experimental analysis of fiber laser offset welding of Al-Ti butt joints",
    	year = 2016,
    	journal = "INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY",
    	volume = 83,
    	abstract = "In spite of great potentiality in aircraft and automotive industries, dissimilar joining of hybrid Al-Ti structures is often challenging because of the unavoidable formation of brittle intermetallic compounds, mixing of molten phases, and large differences in material properties. In this work, dissimilar 2 mmthickness AA5754 and Ti6Al4V butt joints were produced by shifting an Yb fiber laser source on the upper surface of the Ti sheet. Neither filler wire nor groove preparation was adopted. Different working conditions and seam shapes were assessed. Results, characterized in terms of microstructure, micro-hardness, and tensile behavior, showed good characteristics and margins for improvement. The finite element analysis supported the investigation and provided temperature distribution and thermal cycle in the workpiece. The calculation was carried out by ANSYS parametric design language (APDL). Temperatures and seam cross section were detected for validating the model. Numerical output approached experimental results with good accuracy.",
    	keywords = "Al-Tiweld; FEManalysis; Laserwelding; Offset; Industrial and Manufacturing Engineering; Control and Systems Engineering; Computer Science Applications1707 Computer Vision and Pattern Recognition; Software; Mechanical Engineering",
    	url = "http://www.springerlink.com/content/0268-3768",
    	doi = "10.1007/s00170-015-7562-8",
    	pages = "89--98"
    }
    
  3. Leo Paola, D'Ostuni Sonia and Casalino Giuseppe. Hybrid welding of AA5754 annealed alloy: Role of post weld heat treatment on microstructure and mechanical properties. MATERIALS & DESIGN 90:777–786, 2016. DOI BibTeX

    @article{ 11589_62866,
    	author = "Leo Paola and D'Ostuni Sonia and Casalino Giuseppe",
    	title = "Hybrid welding of AA5754 annealed alloy: Role of post weld heat treatment on microstructure and mechanical properties",
    	year = 2016,
    	journal = "MATERIALS & DESIGN",
    	volume = 90,
    	abstract = "In this paper hybrid welding of the annealed AA5754 alloy was studied and the role of post weld heat treatment (PWHT) on microstructure and mechanical properties was investigated. The microstructure and hardness of the base material andwelds were analyzed. Due to the segregation, the lowest microhardness value was observed at the welding centerline. High microhardness was registered in a narrow zone at the interface between the fusion zone and the heat affected zone where the welding cycle promotes both the strengthening byMg solid solution and the lowest grain size. The hardness of the heat affected zonewas higher than that of the base material due to dissolution of soluble particles (Mg2Si and Mg2Al3). PWHT at 350 °C increased the microhardness in the fusion zone and the tensile strengthwith respect to the untreated joint,whereas the strain at fracturewas similar showing that the fracturewas promoted mainly by the presence of porosity, coarse grain size and insoluble segregated second phases.",
    	keywords = "AA5754; Hardness; Hybrid welding; Microstructure; Post weld heat treatments; Welding defects; Mechanical Engineering; Mechanics of Materials; Materials Science (all)",
    	doi = "10.1016/j.matdes.2015.10.150",
    	pages = "777--786"
    }
    
  4. Casalino Giuseppe and Mortello Michelangelo. A FEM model to study the fiber laser welding of Ti6Al4V thin sheets. INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY, pages 1–8, 2016. URL, DOI BibTeX

    @article{ 11589_62867,
    	author = "Casalino Giuseppe and Mortello Michelangelo",
    	title = "A FEM model to study the fiber laser welding of Ti6Al4V thin sheets",
    	year = 2016,
    	journal = "INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY",
    	abstract = "This paper describes a finite element model for fiber laser beam welding of Ti6Al4V in butt configuration. Full penetration keyhole welding of 2-mm-thick plates was performed by adopting a Yb-YAG fiber source. Neither filler wire nor groove preparation was adopted to perform the seam. Various welding conditions were considered in order to develop a versatile and simple model for the heat source. Thus, the study was carried out by varying the modeling strategy of the thermal source as a function of the calculated expected seam geometry. ANSYS parametric design language (APDL) programming was used for the generation of the numerical code. The calibration of the model involved both cross-section geometry and thermal cycle beside the weld seam. The accuracy was improved by simulating the thermal contact conductance at the interface. Transient temperatures and geometric characteristics of the weld zone were calculated. Numerical results were in good agreement with experimental ones.",
    	keywords = "FEM; Fiber laser; Laser welding; Titanium alloy; Industrial and Manufacturing Engineering; Control and Systems Engineering; Computer Science Applications1707 Computer Vision and Pattern Recognition; Software; Mechanical Engineering",
    	url = "http://www.springerlink.com/content/0268-3768",
    	doi = "10.1007/s00170-015-8298-1",
    	pages = "1--8"
    }
    
  5. Campanelli Sabina L, Casalino Giuseppe, Mortello Michelangelo, Angelastro Andrea and Ludovico Antonio Domenico. Microstructural characteristics and mechanical properties of Ti6Al4V alloy fiber laser welds. In Procedia CIRP 33. 2015, 428–433. URL, DOI BibTeX

    @conference{ 11589_76967,
    	author = "Campanelli Sabina L and Casalino Giuseppe and Mortello Michelangelo and Angelastro Andrea and Ludovico Antonio Domenico",
    	title = "Microstructural characteristics and mechanical properties of Ti6Al4V alloy fiber laser welds",
    	year = 2015,
    	publisher = "Elsevier",
    	journal = "PROCEDIA CIRP",
    	volume = 33,
    	booktitle = "Procedia CIRP",
    	keywords = "Fiber laser welding; Metallurgical and mechanical characterisatio; Titanium alloy; Control and Systems Engineering; Industrial and Manufacturing Engineering",
    	url = "http://www.sciencedirect.com/science/journal/22128271",
    	doi = "10.1016/j.procir.2015.06.098",
    	pages = "428--433"
    }
    
  6. Casalino Giuseppe, Mortello Michelangelo and Peyre Patrice. Yb-YAG laser offset welding of AA5754 and T40 butt joint. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY 223:139–149, 2015. DOI BibTeX

    @article{ 11589_62905,
    	author = "Casalino Giuseppe and Mortello Michelangelo and Peyre Patrice",
    	title = "Yb-YAG laser offset welding of AA5754 and T40 butt joint",
    	year = 2015,
    	journal = "JOURNAL OF MATERIALS PROCESSING TECHNOLOGY",
    	volume = 223,
    	abstract = "tIn this work, a 5754 Al alloy and T40 were joined in butt configuration by focusing a fiber laser ontothe titanium side, close to the weld centerline (offset). The keyhole was made entirely of titanium, andthe fusion of the aluminum was achieved by heat conduction. Neither filler metal nor chamfering wasnecessary to produce a sound, dissimilar weld. The assembly was free from porosity and spatter defects.The mechanical properties were satisfactory. The energy input, the laser offset, and their interaction hadstatistically significant effects on the ultimate tensile strength. The findings of this investigation provethe robustness and suitability of fiber laser offset welding for Al–Ti weld fabrication.",
    	keywords = "Al-Ti weld; Laser offset; Yb-YAG laser welding",
    	doi = "10.1016/j.jmatprotec.2015.04.003",
    	pages = "139--149"
    }
    
  7. Casalino G, Campanelli SL, Contuzzi N and Ludovico AD. Experimental investigation and statistical optimisation of the selective laser melting process of a maraging steel. OPTICS AND LASER TECHNOLOGY 65:151–158, 2015. DOI BibTeX

    @article{ 11589_5666,
    	author = "Casalino G and Campanelli SL and Contuzzi N and Ludovico AD",
    	title = "Experimental investigation and statistical optimisation of the selective laser melting process of a maraging steel",
    	year = 2015,
    	journal = "OPTICS AND LASER TECHNOLOGY",
    	volume = 65,
    	abstract = "Selective Laser Melting (SLM) is an Additive Manufacturing process (AM) that built parts from powder using a layer-by-layer deposition technique. The control of the parameters that influence the melting and the amount of energy density involved in the process is paramount in order to get valuable parts. The objective of this paper is to perform an experimental investigation and a successive statistical optimization of the parameters of the selective laser melting process of the 18Ni300 maraging steel. The experimental investigation involved the study of the microstructure, the mechanical and surface properties of the laser maraging powder. The outcomes of experimental study demonstrated that the hardness, the mechanical strength and the surface roughness correlated positively to the part density. Parts with relative density higher than 99% had a very low porosity that presented closed and regular shaped pores. The statistical optimization determined that the best part properties were produced with the laser power bigger than 90 W and the velocity smaller than 220 mm/s.",
    	keywords = "Optimization; OptimizatSelective laser melting; Statistical analysis",
    	doi = "10.1016/j.optlastec.2014.07.021",
    	pages = "151--158"
    }
    
  8. Leo P, Renna G, Casalino G and Olabi A G. Effect of power distribution on the weld quality during hybrid laser welding of an Al-Mg alloy. OPTICS AND LASER TECHNOLOGY 73:118–126, 2015. DOI BibTeX

    @article{ 11589_58158,
    	author = "Leo P and Renna G and Casalino G and Olabi A G",
    	title = "Effect of power distribution on the weld quality during hybrid laser welding of an Al-Mg alloy",
    	year = 2015,
    	journal = "OPTICS AND LASER TECHNOLOGY",
    	volume = 73,
    	abstract = "This paper treats of the analysis of the effect of arc and laser powers on the quality of the arc assisted fiber laser welding of an Al-Mg alloy in the butt configuration. Grain size, weld geometry defects, porosity, and magnesium loss were measured. Magnesium content of the fused zone decreased as the laser power increased while the porosity increased with laser power. Microhardness profiles and tensile properties were explained on the basis of the joint microstructure and defects and related to the power distribution. The porosity level and Mg content in the fused zone affected both tensile strength and ductility. The power distribution that stabilized the welding process and minimize the weld porosity was defined.",
    	keywords = "Al-Mg; Hybrid welding; Power distribution; Weld quality;",
    	doi = "10.1016/j.optlastec.2015.04.021",
    	pages = "118--126"
    }
    
  9. Casalino Giuseppe, Mortello Michelangelo and Campanelli Sabina L. Ytterbium fiber laser welding of Ti6Al4V alloy. JOURNAL OF MANUFACTURING PROCESSES 20:250–256, 2015. URL, DOI BibTeX

    @article{ 11589_58161,
    	author = "Casalino Giuseppe and Mortello Michelangelo and Campanelli Sabina L",
    	title = "Ytterbium fiber laser welding of Ti6Al4V alloy",
    	year = 2015,
    	journal = "JOURNAL OF MANUFACTURING PROCESSES",
    	volume = 20,
    	abstract = "In this work, full penetration welding of 2 mm thick Ti6Al4V plates in butt configuration was performed by adopting a high brightness Yb fiber laser. Neither groove preparation nor filler groove was used. The influence of different welding conditions on the bead morphology, metallurgy and mechanical properties was discussed in detail. Seam appearance and microstructures were assessed by optical microscopy, while the mechanical behavior was evaluated in terms of Vickers micro-hardness and tensile strength. Fracture surfaces were inspected by scanning electron microscopy. The efficiency of the welding process was estimated by correlating the power transmitted and the extension of the fusion zone. The defectiveness of the bead geometry was minimized by optimizing the welding conditions.",
    	keywords = "Fiber laser welding; Metallurgical and mechanical properties; Ti6Al4V titanium alloy; Industrial and Manufacturing Engineering; Management Science and Operations Research; Strategy and Management1409 Tourism, Leisure and Hospitality Management",
    	url = "http://www.elsevier.com/wps/find/journaldescription.cws_home/620379/description#description",
    	doi = "10.1016/j.jmapro.2015.07.003",
    	pages = "250--256"
    }
    
  10. Casalino G, Mortello M, Leo P, Benyounis KY and Olabi A G. Study on arc and laser powers in the hybrid welding of AA5754 Al-alloy. MATERIALS & DESIGN 61:191–198, 2014. BibTeX

    @article{ 11589_2659,
    	author = "Casalino G and Mortello M and Leo P and Benyounis KY and Olabi A G",
    	title = "Study on arc and laser powers in the hybrid welding of AA5754 Al-alloy",
    	year = 2014,
    	journal = "MATERIALS & DESIGN",
    	volume = 61,
    	abstract = "In this paper a new generation of fiber laser assisted by a MIG source was used to weld AA5754-H111 aluminum alloy in 3. mm thick butt configuration. The effects of laser and arc powers on the weld geometry and properties were studied. Weld geometry and porosity were measured. The microstructure was investigated by optical microscope and Vickers micro-hardness was taken. The residual stress close to the heat affected zone was measured by the incremental hole-drilling method. Eventually, the tensile test was conducted in order to compare the mechanical properties of the weld with those of the parent metal.For the first time the sensitiveness of the hybrid welding of the 5754 aluminum alloy to the arc and laser powers was demonstrated. Higher laser power favored the stability of the process and provided good structural and geometrical properties of the weld. Further investigation can be performed in order to optimize the weld soundness and the energy efficiency of hybrid welding an aluminum alloy using a fiber laser.",
    	keywords = "Aluminum alloy ; Hybrid welding; Welding power",
    	pages = "191--198"
    }
    
  11. Casalino G, Campanelli S, Contuzzi N, Angelastro A and Ludovico AD. Laser assisted friction stir welding of aluminum alloy lap joints: Microstructural and microhardness characterizations. Volume 8963, 2014. DOI BibTeX

    @inbook{ 11589_8258,
    	author = "Casalino G and Campanelli S and Contuzzi N and Angelastro A and Ludovico AD",
    	title = "Laser assisted friction stir welding of aluminum alloy lap joints: Microstructural and microhardness characterizations",
    	year = 2014,
    	journal = "PROCEEDINGS OF SPIE, THE INTERNATIONAL SOCIETY FOR OPTICAL ENGINEERING",
    	volume = 8963,
    	booktitle = "High-Power Laser Materials Processing: Lasers, Beam Delivery, Diagnostics, and Applications III",
    	abstract = "Friction Stir Welding (FSW) is a solid-state joining process; i.e., no melting occurs. The welding process is promoted by the rotation and translation of an axis-symmetric non-consumable tool along the weld centerline. Thus, the FSW process is performed at much lower temperatures than conventional fusion welding, nevertheless it has some disadvantages. The laser Assisted Friction Stir Welding (LAFSW) combines a Friction Stir Welding machine and a laser system. Laser power is used to preheat and to plasticize the volume of the workpiece ahead of the rotating tool; the workpiece is then joined in the same way as in the conventional FSW process. In this work an Ytterbium fiber laser with maximum power of 4 kW and a commercial FSW machine were coupled. Both FSW and LAFSW tests were conducted on 3 mm thick 5754H111 aluminum alloy plates in lap joint configuration with a constant tool rotation rate and with different feed rates. The two processes were compared and evaluated in terms of differences in the microstructure and in the micro-hardness profile.",
    	doi = "10.1117/12.2042215"
    }
    
  12. Campanelli S L, Casalino G, Contuzzi N, Angelastro A and Ludovico A D. Analysis of the molten/solidified zone in selective laser melted parts. Volume 8963, pages 896311-1–896311-8, Friedhelm Dorsch, Editor(s), 2014. DOI BibTeX

    @inbook{ 11589_2693,
    	author = "Campanelli S L and Casalino G and Contuzzi N and Angelastro A and Ludovico A D",
    	title = "Analysis of the molten/solidified zone in selective laser melted parts",
    	year = 2014,
    	publisher = "Friedhelm Dorsch, Editor(s)",
    	journal = "PROCEEDINGS OF SPIE, THE INTERNATIONAL SOCIETY FOR OPTICAL ENGINEERING",
    	volume = 8963,
    	booktitle = "Proceedings of SPIE - Volume 8963",
    	abstract = {The process of Selective Laser Melting (SLM) is an innovative technology for rapid prototyping that can be included among the SFF (Solid Freeform Fabrication) techniques, which are characterized by "free-form" manufacturing of solid parts. SLM is an additive technology that operates starting from the data encoded in the three-dimensional computer aided design (CAD) file of the component to be built. After the slicing operation made on the 3D model of the component, the consequent data file is sent to a computer-controlled laser device that fuses successive layers of metal powder to create the three-dimensional product. The SLM is a technological process which involves optical, thermal and solidification phenomena; thus the analysis of the process is rather complex. This work aims to study the molten/solidified zone in SLM samples through the experimental analysis of the shape and the size of laser tracks. The functional relationships between dimensional parameter of the molten/solidified track and the main parameters used to control the process was identified. © (2014) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.},
    	keywords = "Lasers , Manufacturing , Metals , Rapid manufacturing , Computer aided design , Computing systems , Fabrication",
    	doi = "10.1117/12.2042170",
    	pages = "896311-1--896311-8"
    }
    
  13. Ghorbel E, Hadriche I, Casalino G and Masmoud N. Characterization of Thermo-Mechanical and Fracture Behaviors of Thermoplastic Polymers. MATERIALS 7:375–398, 2014. BibTeX

    @article{ 11589_8269,
    	author = "Ghorbel E and Hadriche I and Casalino G and Masmoud N",
    	title = "Characterization of Thermo-Mechanical and Fracture Behaviors of Thermoplastic Polymers",
    	year = 2014,
    	journal = "MATERIALS",
    	volume = 7,
    	abstract = "In this paper the effects of the strain rate on the inelastic behavior and the self-heating under load conditions are presented for polymeric materials, such as polymethyl methacrylate (PMMA), polycarbonate (PC), and polyamide (PA66). By a torsion test, it was established that the shear yield stress behavior of PMMA, PC, and PA66 is well-described by the Ree-Eyring theory in the range of the considered strain rates. During the investigation, the surface temperature was monitored using an infrared camera. The heat release appeared at the early stage of the deformation and increased with the strain and strain rate. This suggested that the external work of deformation was dissipated into heat so the torsion tests could not be considered isothermal. Eventually, the effect of the strain rate on the failure modes was analyzed by scanning electron microscopy.",
    	keywords = "polymeric materials; thermo-mechanical behavior",
    	pages = "375--398"
    }
    
  14. Casalino G, Campanelli S and Mortello M. Influence of shoulder geometry and coating of the tool on the friction stir welding of aluminium alloy plates. PROCEDIA ENGINEERING 69:1541–1548, 2014. BibTeX

    @article{ 11589_729,
    	author = "Casalino G and Campanelli S and Mortello M",
    	title = "Influence of shoulder geometry and coating of the tool on the friction stir welding of aluminium alloy plates",
    	year = 2014,
    	journal = "PROCEDIA ENGINEERING",
    	volume = 69,
    	abstract = "Friction Stir Welding (FSW) has demonstrated a significant potential for joining low melting point non-ferrous metals in several joint configurations. During FSW metals are joined in the solid state due to the heat generated by the friction and flow of metal by the stirring action of a pinned tool. This paper reports an experimental investigation on the effects of geometry and surface coating of the tool shoulder on the defectiveness, the microstructure and the microhardness of a 3 mm thick 5754H11 aluminium alloy butt weld. During the experiments the diameter and slope of the shoulder varied. Moreover a tungsten carbide coated was tested. The pin geometry and dimensions were kept constant. Four different tools for shoulder geometry and coating condition were tested. The weld was characterized in terms of the bead morphology and the grain size. The weld microhardness profile was measured for all the microstructural zones of the friction stir welding process. The obtained results provide a deeper knowledge of the effect of the tool shoulder geometry and surface condition on the aluminium alloy weldability",
    	pages = "1541--1548"
    }
    
  15. Ludovico A, Angelastro A, Campanelli S, Casalino G, Casavola C, Contuzzi N, De Filippis L, Moramarco V and Serio L. Innovative Techniques of Joining for Advanced Materials in Aeronautical Applications. In proceedings of 1st Workshop on the state of the Art and Challenges of Research Efforts at Poliba. 2014. BibTeX

    @conference{ 11589_18457,
    	author = "Ludovico A and Angelastro A and Campanelli S and Casalino G and Casavola C and Contuzzi N and De Filippis L and Moramarco V and Serio L",
    	title = "Innovative Techniques of Joining for Advanced Materials in Aeronautical Applications",
    	year = 2014,
    	publisher = "Gangemi Editore",
    	address = "Roma",
    	booktitle = "proceedings of 1st Workshop on the state of the Art and Challenges of Research Efforts at Poliba",
    	keywords = "Joining; advanced materials; aeronautical applications"
    }
    
  16. Campanelli S, Casalino G, Contuzzi N, Angelastro A and Ludovico AD. Proprietà e performance di materiali metallici ottenuti mediante Selective Laser Melting. APPLICAZIONI LASER febbraio/marzo 2014, 2014. BibTeX

    @article{ 11589_1460,
    	author = "Campanelli S and Casalino G and Contuzzi N and Angelastro A and Ludovico AD",
    	title = "Proprietà e performance di materiali metallici ottenuti mediante Selective Laser Melting",
    	year = 2014,
    	journal = "APPLICAZIONI LASER",
    	volume = "febbraio/marzo 2014"
    }
    
  17. Casalino G and Leo P. Saldatura Laser di Leghe di Titanio e Alluminio. In Atti del III convegno del coordinamento della meccanica italiana. 2014. BibTeX

    @conference{ 11589_21998,
    	author = "Casalino G and Leo P",
    	title = "Saldatura Laser di Leghe di Titanio e Alluminio",
    	year = 2014,
    	booktitle = "Atti del III convegno del coordinamento della meccanica italiana",
    	abstract = "La saldatura del titanio è largamente diffusa nei vari settori dell’industria metalmeccanica e aerospaziale. Negli ultimi anni è aumentata la necessità di saldare il titanio ad altre leghe leggere ferrose e non come l’alluminio. Le maggiori difficoltà nella saldatura eterogenea del titanio sono dovute alla formazione di un ossido superficiale che si può opporre alla fusione o alla saldobrasatura con metalli dissimili. In questa memoria sono riportati i risultati relativi alla saldatura con laser a fibre del titanio Ti6Al4V con una lega d’alluminio 5754. I due metalli sono saldati mediante un irraggiamento laser della superficie del titanio in prossimità del giunto con l’alluminio. Quest’ultimo fonde a causa dell’onda di calore che si trasmette dalla zona fusa del titanio verso l’alluminio. La caratterizzazione metallurgica e meccanica del giunto dimostra la possibilità di arrivare così a un giunto di qualità accettabile senza particolari preparazioni delle superfici a contatto."
    }
    
  18. Casalino G and Olabi A. Mathematical Modeling of Weld Phenomena, Part 1: Finite-Element Modeling. Volume 6, pages 101–109, Elsevier Ltd, 2014. DOI BibTeX

    @inbook{ 11589_12312,
    	author = "Casalino G and Olabi A",
    	title = "Mathematical Modeling of Weld Phenomena, Part 1: Finite-Element Modeling",
    	year = 2014,
    	publisher = "Elsevier Ltd",
    	volume = 6,
    	booktitle = "Welding and Bonding Technologies",
    	abstract = "The objective of this chapter is to give an essential presentation on the theoretical foundations of the finite-element modeling of weld phenomena. The presented fundamentals of thermal, microstructure, and mechanical analysis embrace models from computational solid mechanics. The modeling of the weld pool fluid calls for computational fluid dynamics. The modeling techniques are validated against a variety of reference solutions for both fusion and solid-state welding.",
    	keywords = "usion welding,; Thermal analysis; Solid-state welding",
    	doi = "10.1016/B978-0-08-096532-1.00606-3",
    	pages = "101--109"
    }
    
  19. Angelastro A, Campanelli S L, Casalino G and Ludovico A. Optimization of Ni-based WC/Co/Cr composite coatings produced by multilayer laser cladding. ADVANCES IN MATERIALS SCIENCE AND ENGINEERING 2013, 2013. DOI BibTeX

    @article{ 11589_52145,
    	author = "Angelastro A and Campanelli S L and Casalino G and Ludovico A",
    	title = "Optimization of Ni-based WC/Co/Cr composite coatings produced by multilayer laser cladding",
    	year = 2013,
    	journal = "ADVANCES IN MATERIALS SCIENCE AND ENGINEERING",
    	volume = 2013,
    	doi = "10.1155/2013/615464"
    }
    
  20. Casalino G, Campanelli S L, Maso U D and Ludovico A. Arc leading versus laser leading in the hybrid welding of aluminium alloy using a fiber laser. pages 151–156, 2013. BibTeX

    @inbook{ 11589_52460,
    	author = "Casalino G and Campanelli S L and Maso U D and Ludovico A",
    	title = "Arc leading versus laser leading in the hybrid welding of aluminium alloy using a fiber laser",
    	year = 2013,
    	booktitle = "Eighth CIRP Conference on Intelligent Computation in Manufacturing Engineering",
    	pages = "151--156"
    }
    

 

Attività Didattiche

Tecnologia dei materiali [Laurea in Ingegneria Gestionale] (Secondo Anno - Secondo semestre)
Qualità delle lavorazioni meccaniche [Laurea Magistrale in Ingegneria Meccanica] (Secondo semestre - Secondo anno)


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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_9 Production technology, process engineering
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