The student will have to prepare a report of his individual work, including a detailed description of the solving methods adopted. Fundamental material removing processes.
Tools and techniques of precision metalworking. Taylor model; time and costs in production acivities. During the classroom practice students face some practical problems concerning the dimensioning and planning of the processes studied at tecbologia. This website uses cookies to improve your experience while you navigate through the website. Out of these cookies, the cookies that are categorized as necessary are stored on your browser as they are as essential for the working of basic functionalities of the website.
We also use third-party cookies that help us analyze and understand how you use this website. Numerically controlled machines and NC programming. Prerequisites Calculus I, Calculus II, Linear algebra, Physics, Technical communication methods, Logistics and Industrial Production, Mechanics, Probability and statistics, Introduction to theoretical and applied mechanics, Electrical machines, Fluid Mechanics, Mechanics of materials Applied mechanics and machines, Heat transfer, acoustics and lighting engineering, Materials for Engineering, Industrial plants, Quality and Metrology.
The student will have to prepare a report of his individual work, including a detailed description of the solving methods adopted. During the classroom practice students face some practical problems concerning the dimensioning and planning of the snatochi studied at lesson. Taylor model; time and costs in production acivities. Chip formation and wear mechanism of cutting tools. Tools and techniques of precision metalworking. In particular, in the field of foundry processes students develop their own tool and process design on CAD instruments in the IT laboratory; in the tecnolobia of material removal processing, practicing activities focus on several applications of the theoretical arguments developed during the lessons, and using calculus instruments for determining the interactions between the cutting tool and the work.
Prerequisites Calculus I, Calculus II, Linear algebra, Physics, Technical communication methods, Logistics and Industrial Production, Mechanics, Probability and statistics, Introduction to theoretical and applied mechanics, Electrical machines, Fluid Mechanics, Mechanics of materials Applied mechanics and tecnolohia, Heat transfer, acoustics and lighting engineering, Materials for Engineering, Industrial plants, Quality and Metrology.
Taylor model; time and costs in production acivities. In particular, the course carefully develops both the physics principles, and the analysis methods concerning the foundry processing, as well as the material removal processing.
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