Welding and Joining Tecnology - a.y. 2016/2017


CFU: 9

Period (Year/Semester): II/I

Languade: Italian

Required/expected prior knowledge: Nothing.

Lecturers: Nele Luigi

Course objectives:
The course provides specialized knowledge for welding metallic alloys, allowing the ability to choose the technological process, to determine the temperature fields and thermal regimes, to predict the final crystalline structures and to control defectology. The aspects of welding automation techniques will be also studied. The specialist knowledge will also be provided to define, realize and characterize adhesive joints.

Tables of contents:
Fe and light alloys recalls. Status diagrams, thermal treatments of ferrous and light alloys. Thermal cycles in welding. Description of heat sources. Heat flow in welding, regimens, flow modeling, conduction equation, metallurgical zones; Maximum temperature, welding bath solidification speed, cooling speed in the ZTA and its vicinity, thermal deformations resulting from welding. Parametric effects. Solidification; Solutions, absorption, flow; Metal gas reactions; fluxes; Gas development; Porosity index. Flame welding: characteristic of flames, gas types, welding techniques. Welding with electric arc: electric arc, internal characteristic, arc stability, current generators, external characteristic, magnetic effects, forces, metal transfer. Laser welding: sources, welding. Friction welding and FSW. Defects and discontinuities in welding: metallurgical, cracks; Geometric defects. Characterization and control tests. Joining techniques for adhesion. Surface Physics, Surface tension, Surface tension measurement methods. Surface preparation methods for adhesion. Adhesives and their classification. Bonding techniques. Characteristics of adhesive joints. Characterization of adhesive joints. Automation in production and welding. Artificial vision systems. IA techniques applied to controls: definitions and applications. Sensors. Numerical controls.

Education method: 
Classroom lessons; Classroom and laboratory exercises; Visits to the companies.

Textbooks and learning aids:
Teacher notes, slides.

Assessment will be written (open questions and numerical exercises) and oral. Intermediate open question and/or numerical test; final test.

© 2014 Mechanical Engeenering Courses
Department of Industrial Engineering
University of Naples Federico II
Realization and Administration: Rosario Moreschi