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Correlation of simulation_models_using_concept_modelingSalvatore Scalera
Pre-requisite for efficient vehicle programs is the CAE driven development process. The accuracy of the models increases over time and leads to an increasing amount of available Concept models in databases. Due to the
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automated evaluation of simulation output and the judgment of the correlation quality.
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(All Rights Reserved)
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The Complete IT Consulting & IT Solutions Provider
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Shanghai Automotive - Application of Process Automation and Optimisation
1. The Application of Process Automation and
Optimisation in the Rapid Development of New
Passenger Vehicles at SAIC Motor
Dave Husson
Vehicle CAE Manager, SAIC Motor UK Technical Centre
Lowhill Lane, Longbridge, B31 2BQ
David.Husson@saicmotor.co.uk
Andy Burke
Product Design Team Manager, Altair ProductDesign
Imperial House, Holly Walk, Royal Leamington Spa, CV32 4JG
Andy.burke@uk.altair.com
www.altairproductdesign.com
copyright Altair Engineering, Inc. 2011
2. www.altairproductdesign.com
Abstract
As a relatively young automotive company, SAIC Motor has drawn on the expertise of its UK
Technical Centre to help in its objective to bring a new range of vehicles to market in an
aggressive time frame. CAE has formed an integral part in doing this and the UK technical
centre has worked closely with Altair Product Design amongst others to utilise its Engineers‟
skills as well as the Hyperworks suite of software.
The paper aims to showcase what has been achieved to date, on the Roewe 550 medium car
programme - currently on sale in China - and on another current vehicle programme, where
processes have been developed further. Several interesting optimisation examples are
highlighted in the development of the body structure as well as some key process
improvement methodologies which have been jointly developed between SAIC and Altair to
streamline the design process.
Keywords: Optimisation, Crash, NVH, Durability, HyperStudy, OptiStruct, Altair Product Design
1.0 Introduction
SAIC Motor is the largest domestic motor manufacturer in China, based in Shanghai. It has
joint ventures with VW and GM and has now embarked on the latest phase in its business
plan, namely to develop its own range of products and brands.
In order to do this effectively, the UK technical centre was set up to draw on the extensive
experience of the UK automotive engineering community. Formally Ricardo 2010, the SAIC
Motor UK Technical Centre (SMTC UK) has been key to helping SAIC achieve its goals.
The competitive nature of the automotive industry demands vehicle development times to be
continually driven down to ensure early time to market, as well as minimising development
costs and the product Bill of Materials costs. A key factor in time scale reduction is the
successful implementation of a CAE design driven process and optimisation techniques are
essential in minimising cost and weight whilst maintaining performance.
During the Roewe 550 development programme, SMTC UK and Altair Product Design
Engineers developed a virtual design of the vehicle within 12 months that required no full
prototype testing. Physical testing of the vehicles has latterly proven that the performance
predictions from CAE were accurate enough to achieve an efficient design. Learning on this
programme has led to further advancements in CAE on the current vehicle programme.
The key factors that enabled the CAE vehicle development within such an aggressive time
scale were:
Consolidated Software Stack
– HyperWorks dominant (Less fragmentation).
Extensive Use of Automation
– Batchmeshing, auto reporting, etc.
Copyright Altair Engineering, Inc., 2011 2
3. www.altairproductdesign.com
Extensive Use of Optimisation
– Key timescale reduction technology, not just performance or minimum mass
consideration
Figure 1 shows a generic representation of the CAE vehicle design process. The phases
indicate vehicle development stages. Each phase begins with a full CAE model build that
ensures all attribute analyses begin at the same design level. As shown, „Process Automation
– Pre‟ is extensively used at these stages to ensure rapid turn around of model creation and
„Process Automation – Post‟ ensures rapid availability of results with minimal analyst
interaction.
Figure 1: Generic CAE Vehicle Development Process
The performance indicator, shown on the Y axis, is a generic representation of the average
performance of all crash, NVH and durability attributes. During a phase, the vehicle
performance is developed through routine use of optimisation analysis. In early phases,
concept and global optimisation is used to define an efficient base structure. These activities
are then ramped down in later phases while local performance optimisation is ramped up as
the design becomes more mature.
Through the routine use of optimisation, the objective at the end of phase 3 is to exceed
performance targets to allow more scope for mass optimisation during phase 4.
Copyright Altair Engineering, Inc., 2011 3
4. www.altairproductdesign.com
2.0 CAE Process - Roewe 550
2.1 Consolidated Software Stack
Crash, NVH and durability analysis was carried out using a common suite of software tools.
Figure 2 illustrates the software solution used for each activity within each of the disciplines.
The LS-DYNA solver was used for crash simulations and non-linear durability analyses.
Fatigue analysis was carried out using nCode. For all other activities it can be seen that Altair
HyperWorks was used.
Attribute Activity Software Solution
FE Model Build BatchMesher
Crash Pre Processing HyperMesh
Crash Crash Post Processing Altair HyperView
Crash Solver LS-DYNA
Optimisation HyperStudy
FE Model Build BatchMesher
NVH Pre Processing HyperMesh
NVH NVH Solving Radioss/Analysis
NVH Post Processing HyperView
Optimisation OptiStruct
FE Model Build BatchMesher
Durability Pre Processing HyperMesh
Radioss/Analysis
Durability Solving
LS-DYNA
Durability (Implicit/Explicit)
Durability Fatigue nCode
Durability Post Processing Altair HyperView
OptiStruct
Optimisation
HyperStudy
Figure 2: Vehicle Program Consolidated CAE Software Stack
The consolidated software stack facilitated;
Ease of model transfer between disciplines: reducing time, volume of data and user
error.
Commonality and therefore familiarity of software package layout for each activity
including communication back to SMTC UK and China
Copyright Altair Engineering, Inc., 2011 4
5. www.altairproductdesign.com
Manning resource transfer between disciplines when required, as analysts were
already familiar with the software used in other disciplines.
Commonality of optimisation tool usage allowing multi-disciplinary optimisation
2.2 Extensive Use of Automation
2.2.1 Process Automation - Pre
Rapid turnaround of model builds was achieved through Altair‟s Batch Meshing technology.
From Body in White (BIW) CAD data release, body models were built and assembled within
10 days, whilst still providing uninterrupted development support. Figure 3 illustrates the
general model build process.
Tools were developed to automate the welding of the BIW through interrogation of the CATIA
V5 weld file and Bill of Materials (BOM). The BIW model was welded within minutes and the
quality of the weld data could quickly be assessed to ensure that all the welds were realised in
the model. This process supports multiple weld representations for different analysis types
and codes
Advances in Altair Radioss NVH solver technology allowed smaller crash type mesh sizes to
be handled in NVH runs in reasonable time frames. A common meshing strategy was
therefore used for crash and NVH models. These models also formed the basis of durability
analysis, with mesh refinement modifications made only in required localised areas. This
model commonality significantly reduced model library complexity and facilitated ease of
model transfer between disciplines.
Copyright Altair Engineering, Inc., 2011 5
6. www.altairproductdesign.com
CAD Data
Start Batch Mesher Batch Mesher
– Criteria Setup – Import CAD
Meshed and Welded
Ready to Run Model Weld File Creation
Within 10 Days – Catia Data
Figure 3: Model Build Process
2.2.2 Process Automation - Post
Process automation was continuously used throughout the program to post process and
report results in a consistent manner without risking user error or introducing differences in the
interpretation of the data. Speedy reporting gave feedback to design teams in reduced time
scales, allowing design decisions to be made and design iterations cycles to be carried out
more quickly.
Post processing automation significantly reduced the number of man hours spent post
processing, enabling analysts to focus on more value added activities. Figure 4 shows an
example of the types of post processing output for crash analysis results. The data extracted
into the report is customised to suit the individual load case through a template file.
Copyright Altair Engineering, Inc., 2011 6
7. www.altairproductdesign.com
Figure 4: Process Automation Example – Auto Post Processing of Crash Results
2.3 Extensive Use of Optimisation
2.3.1 Concept Optimisation
During the early phases of the development program, Altair OptiStruct was used to investigate
and derive design concepts that satisfied available package constraints and loading
conditions. Areas of the structure that had not been defined allowed greater design freedom to
use optimisation methods such as topology to arrive at an optimum material distribution and
size and shape to derive gauges and geometry definition. Two examples of this type of
analysis are presented below.
Figure 5 shows the results of a front end slam panel topology optimisation that was used to
define the optimum material distribution under service loading conditions and available
package space. The defined load paths, shown, were used in discussions with designers to
develop the slam panel design. Figure 6 shows the results of a crush can size and shape
optimisation analysis. The results of this analysis were used in the development of an efficient
crush can design.
Copyright Altair Engineering, Inc., 2011 7
8. www.altairproductdesign.com
Figure 5: Topology Results, Optimum Figure 6: Size and Shape Results, Crush
Material Distribution for Front End Can Concept Shape and Gauge Definition
Concept Design
2.3.2 Global Optimisation
The objective of the global optimisation analysis was to define, early in the design process,
critical areas of the structure that required development to improve global stiffness and global
modal performance. Figure 7 shows an example of a global discrete gauge optimisation
analysis. The objective of the optimisation was to maximise global performance without
increasing mass. The gauge contour plot indicates areas of the body structure that contributed
significantly to the global performance and therefore areas of further focused design
development.
Figure 7: Global Optimisation Example – Gauge Optimisation to Identify Critical Areas
of the Body Structure
2.3.3 Local performance Optimisation
As the design of the vehicle became more mature, concept and global optimisation activities
began to decrease as more detailed, local, design optimisation activities began to increase.
Copyright Altair Engineering, Inc., 2011 8
9. www.altairproductdesign.com
As an example of local optimisation analysis, Figure 8 shows the results of a topology
analysis carried out to define a light weight gearbox mount design that met NVH and durability
targets.
Package Space Definition Topology Results – Meeting NVH
and Durability Targets
Figure 8: Local Optimisation Example – Topology Definition, Gearbox Mount Design
2.3.4 Mass Optimisation
At the beginning of the last phase, many attributes met and exceeded targets. This gave the
opportunity to reduce the mass of the structure whilst still maintaining target performance.
Also during the last phase, panel tooling was at the sign off stage which limited the possibility
of changing panel design and shape, but still allowed the possibility of panel gauge changes.
The last phase was therefore the ideal time to carry out mass gauge optimisation analysis on
the mature, and performance optimised, body structure.
Many different approaches can be used to carry out gauge optimisation analysis. In all
approaches it is essential that relevant attributes from each of the disciplines are taken into
account. An OptiStruct optimisation analysis can take into account all linear analysis load
cases. Therefore, all NVH and a limited number of durability attributes could be included in the
optimisation analysis. Some non-linear load cases could also be represented, however, non-
linear analysis such as crash events inevitably require non-linear over check analysis to
ensure target performance is maintained.
One approach used during the Roewe 550 vehicle program was to apply OptiStruct sensitivity
analysis to identify the least contributing panels for all linear load cases. Figure 9 shows an
example plot of the least contributing body structure panels. These panels were then set to
the minimum allowable gauge and non-linear load cases screened the performance and
increased gauge and/or the material grade where required to achieve target performance.
This approach resulted in a significant body structure mass reduction.
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Least contributing Panels -
Linear Load Cases
Figure 9: Least Contributing BIW Panels from Sensitivity Study
2.3 Completion of project
Once the development phase of the project was completed, the project moved on to the
validation and production phases. The resulting vehicle passed all of the project performance
targets, many of which meet European requirements, demonstrating that the CAE work has
played a key role in delivering a successful project.
The Roewe 550 went on sale in China in 2008. Figure 10 shows the production vehicle at
launch.
Figure 10: Roewe 550 production vehicle
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3.0 Process Developments and Enhancements
Process automation and optimisation methods have been continually reviewed and
developed. Some examples of new developments that were used on a current SAIC vehicle
program are described in this section.
3.1 Swage Optimisation
Swaging increases panel stiffness and is primarily used to improve NVH attributes but can
also be important for crash and durability performance and can present opportunities for
subsequent mass reduction activity and requirement for NVH damping material. During the
Roewe 550 program, panel swage optimisation was carried out for all major panels. The
optimisation method introduced panel swage form with the objective of maximising panel
natural frequency. Although this method was found to be successful, a disadvantage was that
maximising the panel natural frequency did not always guarantee that peak frequency
response levels would be reduced.
An improved method that was used in a current vehicle program was frequency response
optimisation. The objective function was specified as minimisation of the maximum frequency
response peaks. Example swage and frequency response results are shown in Figure 11. By
applying this method to all major body structure panels, benefits in overall Noise Transfer
Functions (NTFs) were, in some cases, in excess of 10dB. Figure 12 shows a comparison of
baseline and panel optimised Body NTFs at four passenger ear positions.
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Frequency Response Panel Mobility
Amplitude Normal to Panel m/s/N
7.0E-03
Baseline Optimised
6.0E-03
5.0E-03
m/s/N
4.0E-03
3.0E-03
2.0E-03
1.0E-03
0.0E+00
Height (mm) Topography Optimisation 0 20 40 60 80 100 120 140 160 180 200
Freq (Hz)
Production Part
Figure 11: Panel Swage Optimisation – Frequency Response, MinMax Peaks
Figure 12: Panel Swage Optimisation – Benefits to NTF Performance
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3.2 Mass Optimisation
The mass optimisation procedure used in the last phase of the Roewe 550 program was
described in Section 2.3.4. During the current vehicle development project an improved
approach has been successfully used which yielded additional mass saving benefits.
The approach was based on an iterative process. OptiStruct gauge optimisation was carried
out considering all linear load cases and then the optimised gauge line up was over checked
by selected non-linear crash and durability analyses. Where required, panels were up gauged
and/or material upgraded to meet performance targets. These panels were then frozen and a
new OptiStruct gauge optimisation was carried out excluding the frozen panels.
At each step of the process, the manufacturing constraints were considered and forming limits
were used to ensure that only feasible gauge changes were made to any individual panel.
Forming simulation was repeated for any crash critical panels that were affected during the
process. Figure 13 shows a schematic representation of the complete process and Figure 14
shows a typical output from the optimisation.
NVH
Optimisation
Crash Durability
Formability
Frozen
Figure 13: Mass Optimisation Process Schematic
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Maximum
Minimum
Baseline Gauges Optimised Gauges
up-gauge
no change
down-gauge
Gauges +- Changes
Figure 14: Example of Automated Optimised Gauge Output
The process was repeated until OptiStruct optimisation analysis could no longer reduce mass.
Figure 15 shows the mass reduction history as a function of iterations. It can be seen that for
the last iterations, mass reduction began to converge on a single mass saving value. The
process was found to significantly reduce the mass of the body structure by approximately 6%
without any detriment to performance.
ITERATION
0 5 10 15 20 25 30 35 40
0.0 0
-5.0
-10.0
MASS SAVING (kg)
(Negative Values)
29
-15.0
6 15 30
12 28
10 21 24 27
-20.0 20 22 23 25 26 31 32 33
34 35 36 37
9 11 19
18
17
7 16
-25.0
14
5
3
-30.0
2 13
4
1
8
-35.0
Figure 15: Iterative Mass Optimisation Approach - Mass Saving History
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4.0 Next Steps
Although SMTC has achieved significant results over the last few years, it recognises that
there are still many improvements to be made to their CAE processes and methods. Not only
do individual processes as outlined in this paper need to be constantly refined and improved,
but these processes should be standardised and built in to a robust process management
infrastructure to achieve optimum quality and consistency.
SMTC strives to work globally as “One Family” and have set up a joint Virtual Engineering
team which encompasses everything from CAE to virtual design, electrical architecture to
knowledge based engineering.
SMTC is currently investigating several Database and Process management solutions with
the intention of integrating this into the product development infrastructure, including the
existing CAD PDM system.
SMTC UK is also investing in IT infrastructure so that the team can start to perform more
analysis in-house, providing closer, more immediate support to the design team as well as
providing the ability to develop CAE techniques and processes in-house.
5.0 Conclusions
SAIC with Altair Product Design has demonstrated that aggressive vehicle program time
scales can be met through effective engagement of a CAE design driven process combined
with the utilisation of timescale reduction and optimisation technologies.
Routine and extensive use of process automation and optimisation throughout the vehicle
programs allowed vehicle performance and timing targets to be successfully met whilst
minimising cost. This has already led to the successful launch of a vehicle product into the
market place. Some examples of process automation and optimisation were presented
together with examples of new processes and approaches that have been used on the current
vehicle program.
Through the continued collaboration of SAIC and Altair Product Design, process automation
and optimisation technologies will continue to be developed and enhanced in an effort to
further reduce vehicle time to market as well as enhancing a global working culture.
It is anticipated that the rapid development of exciting new SAIC products will continue apace
and that the CAE teams both in Shanghai and the UK will be at the heart of the process, whilst
working closely with key suppliers such as Altair Product Design.
6.0 References
[1] Altair OptiStruct v8, Altair Engineering, 2009
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