“From CAD to manufacturing: an optimization procedure applied in the design of a motorcycle wheel rim”” Authors: Sandra Baldini - Daniele Ardiri (Piaggio S.p.A.) Leonardo Bertini – Francesco Frendo (DMNP Engineering -University of Pisa) Bonn, Germany 7-9 November 2011
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From CAD to manufacturing: an optimization procedure applied in the design of a motorcycle wheel rim
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“From CAD to manufacturing: an
optimization procedure applied in the design
of a motorcycle wheel rim””
Authors:
Sandra Baldini - Daniele Ardiri (Piaggio S.p.A.)
Leonardo Bertini – Francesco Frendo (DMNP Engineering -University of Pisa)
Bonn, Germany 7-9 November 2011
CONTENTS Introduction
Aims of the work
Optimization Problem
Optimization Results
Fem Re-analysis
Radial Impact
Conclusion
Acknowledgements
INTRODUCTION The activity is resulting from the cooperation between
Piaggio&C SpA and Mechanical Engineering Dept. of Pisa
University. It has been carried out within the framework of
the MUSS research project, funded by the Italian Ministry of
Economic Development under the call «Industria 2015 –
Mobilità Sostenibile» (2010-2013).
The MUSS project (Safe and Sustainable Urban Mobility) is
aimed at:
• Making powered-two wheelers vehicle more
environmental-friendly
• Spreading their use as effective alternative to cars
INTRODUCTION
Structural optimisation in order to evaluate the actual
possibilities in reducing the mass of structural parts
The Topics: engines improvement, research on alternative
fuels and new powertrains, improvements of vehicles (weight
reduction, comfort, safety), new prototypes …
This work has been developed by means of the following
commercial software Optistruct and Radioss, included in the
suite Hyperworks v. 11 produced by Altair Engineering
AIMS OF THE WORK
Aim of this work is to develop an optimization procedure in
order to reduce the weight of scooter components. The focus
of this project has been the weight reduction of an
aluminium wheel by means of a topologic analysis
The topologic optimization result has been elaborated by
Piaggio Designers in order to realize the CAD model used
for following structural validation
The CAD model has been tested according to the radial
impact standard in an esplicit FEM simulation ‘URTO
RADIALE’ as well as according to bending and torsion
alternating load
OPTIMIZATION PROBLEM Reference Model
Design Region
NO DESIGN SPACE
DESIGN SPACE
The reference model for the analysis
has been the New Beverly 300 cc
(Front Wheel)
The rim and the hub of the wheel are
interface region that are not included
in the optimization process. The
volume included within the two parts is
design space of the optimization
OPTIMIZATION PROBLEM
Design Constraints:
• Maximum Von Mises Stress < 72 MPa corrisponding
to the fatigue limit (0,3*sR ) of this material for 10^7
cycles
• % of mass reduction: 75 %
Objective:
• Minimum“compliance”
OPTIMIZATION PROBLEM
Manufacturing Constraint:
• Minimum rib thickness: 6 mm
• Structure with polar simmetry (3, 4, 5, 6 spokes)