Abstract
The importance of interface reduction in defining mechanical joints of flexible mechanisms has not been well investigated and the conventional methods still suffer when applied
to multibody systems.
The student will have to deal with the following topics:
1) modeling of a planar or spatial mechanism that will be experimentally validated
2) FEM analysis of single components and determination of mass and stiffness matrices
3) interface reduction methods
4) numerical study of the flexible multibody model
5) prototype design
6) experimental analyzes to evaluate the influence of the mechanical joint interfaces, even in the presence of clearance.
Keywords
computer simulation
dynamics
mechanics
robotics
ERC sector(s)
PE Physical Sciences and Engineering
Fields of study
Name supervisor
Alessandro Cammarata
E-mail
alessandro.cammarata@unict.it
Name of Department/Faculty/School
Dipartimento di Ingegneria Civile e Architettura
Name of the host University
University of Catania (UNICT)
EUNICE partner e-mail of destination Research
eunice@unict.it
Country
Italy
Thesis level
PhD
Minimal language knowledge requisite
English B1
Thesis mode
Hybrid
Start date
Length of the research internship
6 months
Financial support available (other than E+)
No