Vigilio Fontanari

Via Sommarive, 9 - 38123 Povo
tel. 0461 282430 | 0461 282402
vigilio.fontanari[at]unitn [dot] it
Mechanics of machine elements and structural parts
lunedì 11 novembre 2019
  1. Identification of the dynamic properties of rotating machine parts

  2. Evaluation of wear and efficiency performances of worm gearing for elevators

  3. Effect of defects on high cycle fatigue behavior of cast iron components for wind turbines gearing

Mechanics of materials
lunedì 11 novembre 2019
  1. Corrosion fatigue of structural metals and welded joints

  2. Multiaxial fatigue resistance of structural metals and welded joints using a novel biaxial servohydraulic testing machine

  3. Fatigue resistance of metallic materials fabricated via Additive Manufacturing

  4. Fatigue resistance of shot peened metallic materials

  5. Cyclic plasticity of metals: experimental and numerical analysis of the hysteresis loop evolution

  6. Plastic indentation of metals: correlation between instrumented indentation curves and material constitutive laws

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Numerical simulation of products and processes
 (2019)
lunedì 11 novembre 2019
  1. Numerical simulation of the shot peening process on complex geometrical details

  2. Numerical simulation and experimental validation of the mechanical behaviour of preloaded bolted joints

  3. Numerical simulation and experimental validation of powder-laser interaction in metallic additive manufacturing processes

  4. Structural and topological optimization of cellular lattice materials for automotive and biomedical applications

  5. Hybrid FEM-multibody simulation of vehicles

  6. Parametric modelling of the mechanical response of ropes for different fire scenarios

Biomechanics
lunedì 11 novembre 2019
  1. Ion release, corrosion and fatigue behavior of titanium alloys for biomedical applications

  2. Mechanical behavior of cellular lattice materials for biomedical applications

  3. Multibody and finite element analysis of natural and artificial human joints

  4. Development of an innovative crankset for enhancing the pedaling confort and efficiency

  5. Development of an active exoskeleton for the skoliosis treatment