experimental vibration data january 31st, 2011 · 1. finite element analysis 1. modal parameters 2....
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Correlation of FE Modal Analysis withCorrelation of FE Modal Analysis with Experimental Vibration Data
January 31st, 2011January 31st, 2011
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AgendaAgendaCorrelation of FE Modal Analysis with Experimental Vibration
Data..
Welcome & IntroductionDavid Quinn, Head of Marketing, NAFEMS, g,
Correlation of FE Modal Analysis with Experimental Vibration DataDhanushkodi Mariappan, Techpassion
Q&A Session Closing
Collaboration Collaboration –– Innovation Innovation –– Productivity Productivity -- QualityQuality
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An Overview of NAFEMS
David QuinnDavid QuinnNAFEMSNAFEMS
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NAFEMSNAFEMSThe International Association for the Engineering AnalysisThe International Association for the Engineering Analysis
Community
Almost 1000 Corporate Members worldwideAlmost 1000 Corporate Members worldwide
Library of cutting edge publications
50-60 seminars, courses, conferences, webinars and e-learning events per year
Members get free attendance at seminars, and significant discounts on all other events
Visit www.nafems.org to find out more
C t t P l St d l t d@ f 44(0)1355Contact Paul Steward, [email protected] , +44(0)1355 225688 for full details
Collaboration Collaboration –– Innovation Innovation –– Productivity Productivity -- QualityQuality
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bb tt i l ii l iFebruary 1February 1stst ‐‐ Composite FE AnalysisComposite FE AnalysisFebruary 3February 3rdrd –– Fatigue & Fracture in FE AnalysisFatigue & Fracture in FE Analysis
f /f / l il iwww.nafems.org/ewww.nafems.org/e‐‐learninglearning
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Date: May 23-26, 2010
Location: Boston, MA
Keynote Speakers Announcedy p
Principal Sponsor - Simulia
For more information visit: www nafems org/congressFor more information, visit: www.nafems.org/congress
Collaboration Collaboration –– Innovation Innovation –– Productivity Productivity -- QualityQuality
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Correlation of FE Modal Analysis withCorrelation of FE Modal Analysis with Experimental Vibration Data
Dhanushkodi Mariappan
Techpassion
![Page 8: Experimental Vibration Data January 31st, 2011 · 1. Finite Element Analysis 1. Modal Parameters 2. Damping Estimation 2. Experimental Modal Analysis 1. Input –Output Modal Analysis](https://reader035.vdocuments.us/reader035/viewer/2022063007/5fbb12343cc205418c10489c/html5/thumbnails/8.jpg)
Outline
1. Finite Element Analysis1. Modal Parameters2. Damping Estimation
2. Experimental Modal Analysis 1 Input – Output Modal Analysis1. Input Output Modal Analysis2. Operational Modal Analysis3. Experimental Setup4 Modal Parameter Extraction4. Modal Parameter Extraction5. Time Domain Methods6. Frequency Domain Methods
3 Correlation3. Correlation1. Qualitative : Visual Correlation2. Quantitative : Numerical Correlation
4 C St di4. Case Studies1. Exhaust Pipe : Determining parameters using experimental modal
analysis2 D t i ti f D i C ti R d E h t i
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
2. Determination of Damping : Connecting Rod, Exhaust pipe
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Product Development Stages
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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PerspectiveTest
Simulation Vs Test
Sensors
Test
Hardware
TestSimulation Software
Si l ti
Simulation Vs Test
NASTRANTheory
Simulation
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Realizable Benefits
Identify Failure
modes in prototypes
quickly
Reduce Product
Development
Test
DevelopmentCycle
GainProduct
Durability in Prototype
Stage
Gain Confidence in the FEA
models
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Simulation
The Finite Element Approach
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Finite element methodology The basic concept
Simulation
The basic concept
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Finite element methodology Steps involved
Simulation
Steps involved
Step 1• Descretization
Step 2• Shape Functions
Step 3• Element Matrices
Step 4 0][][det 2 MK
Step 5• Natural Frequencies and Modeshapes
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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The Modal Problem ‐ Formulation Simulation
M d 2Q C d Q K Q PM Qdt 2 C Q
dtK Q P
M e T m e K e B T D B .dv
m e N T N dv C e N T N dv
V e
mV e
N N .dv CV e
N N .dv
det K 2 M 0
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Finite element solving Simulation
Geometry Material Properties Elements Mesh Boundary
Conditions Solve
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Post Processing Simulation
At each of the mode that is solved for, we can obtain the natural frequency and the respective deflection shape – Mode Shape
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
p p p
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Experimental Modal AnalysisExperimental Modal Analysis
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Overview Test
Excite Measure FRFModal
Parameter E t ti
FEA –TestCorrelation
FEA Model UpdatingExtraction Correlation p g
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Experimental Setup‐1 Test
PC Shaker
FForce transducerActuator Output
(Signal Generator)PowerAmplifier
Sensor Input Signal Conditioner for sensors (Charge Amplifier etc)Amplifier etc)
accelerometer
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Experimental Setup‐2 Test
PC Hammer
ForceForce transducer
Sensor Input Signal Conditioner for sensors (Charge Amplifier etc)Amplifier etc)
accelerometer
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Non‐Contact Vibration Measurement
1. No mass loading2. Accurate Correlation3 Accurate Model Updating3. Accurate Model Updating
MEMS
Rotating MachineryRotating Machinery
Hot Surfaces
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Sinusoidal Excitation Test
• Sweep from a low frequency to high frequency in steps• Sweep from a low frequency to high frequency in steps• Ideal for structures with non-linearity and are highly damped
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Random Excitation Test
• random signal with Gaussian distribution• random signal with Gaussian distribution• Ideal for structures with non-linearity• Leakage exists as the force and response signals are non-periodic
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Impact Excitation Test
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Excite ‐Measure Test
TestComponent
x(t) y(t)
X(ω) Y(ω)ComponentX(ω) Y(ω)
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Frequency Response FunctionFRF
Test
FRF
Receptance =Force
ntDisplaceme
)()( YH
Force
Mobilit Velocity
)()()(
XYH Mobility = Force
y
A lAccelerance =
ForceonAccelerati
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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FRF Estimators Test
• Noise level in excitation and response determines the accuracy•Near resonance response noise can be ignored•Near resonance, response noise can be ignored• Near anti-resonance, excitation noise can be ignored
)()()(
XYH
)(X
O FRF ti t d t fit ll it tiTechPassion Modal Analysis in Virtual Prototyping and Product Validation
One FRF estimator does not fit all situations
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Linearity Test
• Modal Analysis is meaningless without the assumption of linearity
Linearity TestLinearity Test
FRF must be independent of excitation amplitudes
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Reciprocity Test
A LTI (Li Ti I i t) S t f ll i itA LTI (Linear Time-Invariant) System follows reciprocity
1 2
HH 2112 HH
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Repeatability Test
• To ensure that the whole setup and measurement system is time-invariant
• For a given pair of excitation and measurement locations, an LTI should yield identical FRF for every measurement
•Repeat some FRF measurements at the beginning and end of test
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Modal Parameters Test
ModesModes
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Coherence Test
Anti-Resonance, Coherence is Low
Resonance, Coherence is high
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Modal Parameters Test
• Damping 0012.0
8501
21
Q
ω resonance: 55.71Q factor: 425.02
8502Q
Damping cannot be estimated through FEA – It is estimated only by experimental method
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Modeshapes Test
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Modal Parameter Extraction Test
Frequency Domain Analysis Time Domain AnalysisFrequency Domain Analysis Time Domain Analysis
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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ComparisonTest
Comparison
Time Domain Analysis Frequency Domain Analysis
Can be done even with ambient excitation
Needs controlled excitation
N i ff t th di ti i ifi tl Eff t f i i llNoise affects the predictions significantly Effect of noise near resonances is small
Needs simultaneous measurement of all h l
Can be done with one measurement i ichannels point at a time
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Frequency Domain Methods Test
FrequencyFrequency Domain Analysis
SDOF Methods
MDOF Methods
Peak picking method
Circle Fit Method
Inverse FRF Method
Least Squares Method
Dobson’s Method
Rational Fraction method Method Method Method Method Polynomials
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Time Domain Methods Test
Time Domain MethodsMethods
Least Squares Ibrahim Time Random ARMA TimeLeast Squares Complexq
Time Domain Method
Domain Method
Decrement Method
ARMA Time series method
Complex Exponential Method
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Simulation Vs Test
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Modal Assurance CriterionMode 1Mode 2
0.8
0.9
0.5
0.6
0.7
0.2
0.3
0.4
Mode 20
0.1
Mode 11
2
TechPassion Modal Analysis in Virtual Prototyping and Product Validation
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Automotive
Wheel Suspension ExhaustWheel Suspension Exhaust
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Case 1: Wheel
• Description• Finite Element Model
E i t• Experiment• FEA-Test Correlation
Modal Parameterso Modal Parameterso MAC Wheel Dia : 365mm
Rim Width : 140mm
Thickness : 3mm
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Finite Element Model
10 Node Tetrahedral
Mesh
• 10 Node Tetrahedral• Nodes = 27306• Elements = 13326
• Aluminum• Density = 2600 Kg/m3
Material
Density 2600 Kg/m3• Young’s Modulus = 70e9 N/m2• Poisson’s Ratio = 0.3
B d• Free - Free
Boundary Conditions
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FEA Results
Animation of Mode 1Mode 1 - 311.80 HzMode 2 – 314.74 Hz
Animation of Mode 3Mode 3 - 893.80 Hz Mode 4 - 894.41 Hz
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Experimental Setupp p
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Test Results
Stimulus and response FRF Coherence
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Curve Fitting g
RFP - Identification of Closely Spaced Modes
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Modal Parameters
267.1Hz273.4Hz 738.4Hz
Frequency Response Functions
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FEA-Test CorrelationEMA FEA
Mode 1Mode 1
267.1 Hz 311.8 Hz
Mode 3
738.4 Hz 893.8 Hz
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MAC
Mode FEA 1 FEA 2 (frequency) (311 Hz) (893 Hz)
EMA 1(267.1 Hz)
0.83 0.71
EMA 3(738.4 Hz)
0.67 0.78
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Case 2: Gear Box Cover
• Description• Finite Element Model
E i t• Experiment• FEA-Test Correlation
Modal Parameterso Modal Parameterso MAC
Gear Box Cover
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Finite Element Model
10 Node Tetrahedral
Mesh
• 10 Node Tetrahedral• Nodes = 19994• Elements = 69019
• Aluminum cast alloy• Density = 4000 Kg/m3
Material
Density 4000 Kg/m3• Young’s Modulus = 51e9 N/m2• Poisson’s Ratio = 0.33
B d• Free - Free
Boundary Conditions
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FEA Results
Mode 1 – 573.89 Hz
Animation of Mode 1
Mode 2 – 939.92 Hz
Animation of Mode 2
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FEA Results
Mode 3 – 1605.20 Hz
Animation of Mode 3Animation of Mode 3
Mode 4 – 1714.200 Hz
Animation of Mode 4
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FEA Results
Mode 5 1861 50 HzMode 5 – 1861.50 Hz
Animation of Mode 5
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Test Results
FRF and Phase
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Modal ParametersRational Fraction Polynomials
ωn (Hz) Q Factor
Mode 1 590 63 91 45Mode 1 590.63 91.45Mode 2 937.5 105.89Mode 3 1531.25 183.25Mode 4 1795 31 167 92Mode 4 1795.31 167.92Mode 5 1956.25 193.31
590.63Hz 937.5Hz 1531.25Hz 1795.31Hz1956.25Hz
Frequency Response Functions
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FEA-Test CorrelationEMA FEA
Mode 1
590.63 Hz 573.89 Hz
Mode 2
937.5 Hz 939.92 Hz
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FEA-Test CorrelationEMA FEA
Mode 3
1531.25 Hz 1605.2 Hz
Mode 4
1714.2 Hz 1795.31 Hz
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FEA-Test CorrelationEMA FEA
Mode 5Mode 5
Mode 5
1956.25 Hz 1861.5 Hz
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MACMode FEA 1 FEA 2 FEA 3 FEA 4 FEA 5
(frequency) (573.89 Hz) (939.92 Hz) (1605.2 Hz) (1714.2 Hz) (1861.5 Hz)
EMA 1(590.63 Hz)
0.99 0.03 0.00 0.01 0.00
EMA 2(937.5 Hz)
0.04 0.96 0.22 0.09 0.17
EMA 3(1531.25 Hz)
0.04 0.19 0.93 0.13 0.05
EMA 4(1795.31 Hz)
0.12 0.06 0.12 0.89 0.21
EMA 5(1956.25 Hz)
0.03 0.04 0.19 0.19 0.80
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Case 3: Exhaust System
• DescriptionFinite Element Model• Finite Element Model
• Experiment• FEA Test Correlation• FEA-Test Correlation
o Modal Parameterso MAC
ExhaustExhaust
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FEA
Free FreeFree - Free
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FEA ResultsFEA Results
X Z plane
Mode 1 = 58.96 Hz
Y-Z plane X-Z plane
Mode 2 = 63.18 Hz
X-Z plane
Mode 3 = 142.91 Hz Mode 4 = 162.32 Hz
X Z planeY-Z plane
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Test Results
Stimulus and response FRF Coherence
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Modal Parametersωn = 55.74Hz
ω = 60 37Hzωn = 60.37Hz
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FEA-Test CorrelationEMA FEA
Mode 1
60.6 Hz 59.0 Hz
Mode 3
142.9 Hz116.7 Hz
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MACMode (frequency)
FEA 1 (51.5 Hz)
FEA 3 (130.7 Hz)
EMA 1(56.2 Hz)
0.82 0.78
EMA 3 0.53 0.95(116 Hz)
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QuestionsQuestions
Collaboration Collaboration –– Innovation Innovation –– Productivity Productivity -- QualityQuality
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THE INTERNATIONAL ASSOCIATIONTHE INTERNATIONAL ASSOCIATIONFOR THE ENGINEERING ANALYSIS COMMUNITYFOR THE ENGINEERING ANALYSIS COMMUNITYFOR THE ENGINEERING ANALYSIS COMMUNITYFOR THE ENGINEERING ANALYSIS COMMUNITY
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