Mechanical engineering training
Structured in 4 modules
Materials: moduli, engineering stress-strain curve, true stress-strain curve.
Machine elements: shafts, bolts, bearings, gears, keys and keyways, springs and preload washers, splines, pins, welded connections.
Engineering mechanics: fundamental terms, mechanical static loading (axial centric loading, shear force, bending/beam deflection, torsion), combined static loading, stress state on inclined plane, Mohr’s circle for plane stress, failure theories, force and moment.
Introduction to GD&T: geometric tolerances, dimensional tolerances.
Complete GD&T training
Structured in 2 modules
Geometric tolerances: basics, symbols and definitions, datums and the datum reference frame, form characteristics (flatness, circularity, cylindricity, straightness), orientation characteristics (parallelism, perpendicularity, angularity), location characteristics (concentricity, symmetry, position), runout characteristics (circular, total), profile characteristics, symbols and others (maximum materials condition MMC, least material condition LMC, envelope requirement).
Dimensional tolerances: terms, limits, deviations and tolerances, fits (clearance fit, interference fit, transition fit), systems of fits (hole based, shaft based, fit choosing, recommended fits), chains of dimensions, functional dimensioning – best practices, roughness.
Basic FEA training
Structured in 4 modules
Materials
Geometry
Static structural analysis (materials setup, geometry setup, contacts, mesh, loads, boundary conditions, analysis settings, convergence, results post-processing).
Modal analysis (materials setup, geometry setup, contacts, mesh, loads, boundary conditions, analysis settings, convergence, results post-processing, influence of the input data on the modal behaviour of the structure), thermal analysis (simple conduction and convection solved in Ansys mechanical).
