Post on 13-Jan-2017
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Design and Analysis of Composite Chassis for Shell Eco Marathon Prototype vehicle 2016
using Finite Element Analysis
Presenter: Mohammed OmerSupervisor: Dr.-Ing. Emmanouil Bouzakis
Affiliated to
Affiliated to
Table of Contents• Introduction
• Problem Statement and Aim• Literature Review
• Methodology• Results and Discussion
• Conclusion and Outlook2
Introduction• Shell Eco Marathon
Competition• Diesel Prototype
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Table of Contents• Introduction
• Problem Statement and Aim• Aim
• Literature Review• Methodology
• Results and Discussion• Conclusion and Outlook
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Problem Statement & Aims• High weight of previous chassis• Insufficient torsional stiffness• Low fuel efficiency
• Design composite chassis• Lightweight and stiff
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Table of Contents• Introduction
• Problem Statement and Aim• Literature Review
• Methodology• Results and Discussion
• Conclusion and Outlook6
Chassis Design Concepts• Space frame • Ladder frame• Monocoque
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Material Comparison Material Density, ρ
(g/cm3)Tensile
Strength, σ (MPa)
Tensile Modulus, E
(GPa)
Specific Strength,
σ/ρ
Specific Modulus,
E/ρ
Steel 7.8 1300 200 167 26
Aluminium 2.81 350 73 125 26
Titanium 4 900 108 225 27
Magnesium 1.8 270 45 150 25
E glass* 2.1 1100 75 524 36
Aramid 1.32 1400 45 1061 34
IM Carbon 1.51 2500 151 1656 100
HM Carbon 1.54 1550 212 1006 138
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Sandwich Panels
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Table of Contents• Introduction
• Problem Statement and Aim• Literature Review
• Methodology• Results and Discussion
• Conclusion and Outlook10
Modelling• Hand sketches and
Mock-up• 3D modelling• Compact packaging
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Simulation Setup - 1
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Composite Layup
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Vertical Bending Simulation
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Use of Remote Points for Suspension Simulation
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Torsional Stiffness Analysis
Torsional stiffness,and Vertical displacements Track width 16
Table of Contents• Introduction
• Problem Statement and Aim• Literature Review
• Methodology• Results and Discussion• Conclusion and Outlook
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Analytical Validation
Simply Supported Beam Fixed Supported Beam Analytical ANSYS Error (%) Analytical ANSYS Error (%)δ (mm) 202.56 202.71 +0.074% 53.03 52.97 -0.06% (MPa) 232.63 242.11 +3.92% 116.32 119.75 +2.86% (MPa) 0.1368 0.155 +11.74% 0.1368 0.15 +8.8%
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Bending Results
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Torsional Analysis Results
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Optimisation of Suspension Points
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Torsional Failure Map
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Belt Harness Test
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Investigating Effect of Changing Core Thickness
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Investigating Effect of Changing Core Thickness - Results
Nomex core (mm)
Max. deformation (mm)
Max. Stress (MPa)
Max combined IRF
Failure (Yes/No)
9 20.14 146 1.13 Yes
12 17.93 123 0.957 No
15 16.39 107.5 0.805 No
20 13.88 80 0.662 No
25 11.95 67 0.679 No
30 10.17 61.2 0.471 No
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Utilizing Engine as Chassis Member
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Vertical Bending
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Torsional Test
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Investigating Effect of Core Thickness While Using Engine as Chassis Member
Nomex core (mm)
Max. deformation (mm)
Max. Stress (MPa)
Max combined IRF
Failure (Yes/No)
9 7.006 67.9 0.547 No
12 6.24 62.4 0.457 No
15 5.79 53.4 0.396 No
20 5.27 52.6 0.330 No
25 4.81 47 0.284 No
30 4.42 42 0.301 (at SP) No
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GSET 2015 Chassis
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Bending Analysis of GSET Chassis 2015
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Torsional Analysis of GSET Chassis 2015
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Table of Contents• Introduction
• Problem Statement and Aim• Literature Review
• Methodology• Results and Discussion
• Conclusion and Outlook33
AchievementsAchievements• 55% weight reduction• 2 times stiffer• Compact packaging• Combination of base and chassis
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Further Work and Recommendations• Determination of exact material properties• Adhesive between CFRP & metal analysis• Composite layup optimisation• Simulation validation with physical tests• Using powerful PC for finer meshing and higher
accuracy• Combining work with body team to achieve
monocoque design
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References• Rules and regulations. Shell Global. [Online] [Cited: 20 March 2015.]
http://www.shell.com/global/environment-society/ecomarathon/for-participants/general-information/rules.html.
• Riley, W. B., George, A. R. Design, Analysis and Testing of a Formula SAE Car Chassis. SAE Technical Paper. USA : Cornell University, 2002.
• HexWeb(TM) HONEYCOMB SANDWICH DESIGN TECHNOLOGY. [Pdf] s.l. : Hexcell Composites, 2000.
• Eurenius, C. A., Danielsson, N., Khokar, A., Krane, E., Olofsson, M., Wass, J. Analysis of Composite Chassis. Bachelor Thesis. Goeteburg, Sweden : Chalmer's University of Technology, 2013.
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Thank you
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