deep impact design for shock with i-deas analysis and test · deep impact design for shock with...
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![Page 1: Deep Impact Design for Shock with I-deas Analysis and Test · Deep Impact Design for Shock with I-deas Analysis and Test Dan Hensley ATA Engineering dan.hensley@ata-e.com 303.464.7049](https://reader031.vdocuments.site/reader031/viewer/2022011817/5e79da7496c5ca3d5d75f6e2/html5/thumbnails/1.jpg)
PLM World ‘06
Premium Partners:
Deep Impact Design for Shockwith I-deas Analysis and Test
Dan HensleyATA [email protected]
Craig WilliamsonBall [email protected]
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Agenda
▪ Background▪ The Challenge we faced▪ The Solution, or How Integration Helped▪ Conclusions
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Deep Impact Background
▪ Mission: Impact a comet in deep space and document the explosion to determine the chemical content of the comet▪ Mission was a resounding success!▪ Video Excerpt: Mission Profile▪ Source: “Comet Collision”,
Discovery Channel, 2005
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ATA Has Provided High-Value Mechanical Design, Analysis & Test Services Since 1977
▪ ATA Engineering’s mission is to provide superior, innovative analysis and test-driven design solutions and exceptional support to our mechanical, structural, and aerospace engineering clients. 1977: SDRC opened western region services office in San Diego2000: ATA Engineering, Inc. was formed as an employee-owned company through the purchase of all assets and contractual obligations of the Advanced Test and Analysis group of SDRC
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ATA Involvement with Deep Impact
▪ ATA contracted by BATC to provide analysis support for Deep Impact spacecraft development▪ Original paper presented at ATS▪ “Using Transient Analysis To Predict Shock
Response for Component Flexure Design”, 21st
Aerospace Testing Seminar, October 2003
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The Challenge
▪ Several components onDI spacecraft weresusceptible to shock▪ COC – Component of Concern▪ SSI – Shock Sensitive Item
▪ COC mounted with traditional “Z” flexures▪ Flexures did not provide sufficient attenuation▪ Identified by component vendor late in the design
process
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SSI Location
COC Baseplate
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Initial Predictions of Shock Attenuation Revealed the Concern
COC SSI Spec DI Shock Spec
Predicted Responseswith Z Flexures
▪ COC tested to DI Shock Input Specification▪ SSI response levels (X,Y,Z) with Z flexures
exceeded COCSSI Response Specification
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The Challenge: Rapid Redesign Without Prototype Parts
▪ Late in the design process▪ Tight schedule and cost constraints
▪ No time or money to build and test prototypes▪ Volume and packaging constraints limited
solution options▪ No room for taller flexures or active control
▪ Had to Get It Right the first time, and had to come up with a solution quickly
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The Solution: Test-Driven Design and Analysis in I-deas (Part 1 of 2)
BuildSimpleFEM (COC only)
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COC Baseplate Modal Test andModal Correlation
(COC only)
ShockTest(COC only)
Transient Analysis(COC only, Test inputs)
ComputeSRS
Adjust FEM andCorrelate to SRS
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COC Baseplate
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▪ Only COC baseplate available when problem was identified▪ Test and correlate baseplate FEM▪ Use transient analysis to predict SRS
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Initial Test and Analysis Comparisons Showed A Workable Approach
▪ Calculate SRS from COC baseplate (no flexures) analysis using test inputs
▪ Predictions match test data close enough for redesign effort, which involved adding flexures to the FEM and analyzing again
COC SSI Spec
Predicted Response
Test Response COC SSI Spec
Predicted Response
Test Response
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The Solution: Test-Driven Design and Analysis in I-deas (Part 2 of 2)
Try newFlexureconcept
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Shock Test(COC withnew flexures)
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▪ Added flexures to baseplate FEM and used baseplate test input transient to predict SRS▪When acceptable SRS response was
demonstrated, fabricated flexures and repeated shock test to validate analysis
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The New Flexure Design Was Realized Quickly
▪ Redesign effort completed in two days▪ Small model size allowed for many quick iterations▪ Redesigned flexures had minimal impact to the
system▪ No overall dimension changes so no repackaging required
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The New Flexure Design Shows Sufficiently Attenuated Response
▪ Predicted responses due to DI Shock Spec input was sufficiently below COC SSI spec
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Shock Response Spectrum
Frequency (Hz)
DI Shock SpecCOC SSI SpecPredicted Response with new flexures
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Shock Response Spectrum
Frequency (Hz)
DI Shock SpecCOC SSI SpecPredicted Response with new flexures
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The New Flexure Design Was Validated After Building Hardware and Re-Testing
▪ Actual responses compared fairly well with predicted responses
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Shock Response Spectrum
Frequency (Hz)
DI Shock SpecCOC SSI SpecPredicted Response with new flexuresActual Response with new flexures
102 103 104
Shock Response Spectrum
Frequency (Hz)
DI Shock SpecCOC SSI SpecPredicted Response with new flexuresActual Response with new flexures
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Flexures “Make the News”
▪ Video Excerpt: Flexures In Flight▪ Source: “Comet Collision”, Discovery Channel,
2005
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The Benefits of Integrated Design, Analysis, and Test software
▪ Software integration was extremely helpful in this process▪ No data translation between processes▪ I-deas Response Analysis understood test data formats
natively▪ Used analysis results (mode shapes) from I-deas Model Solution directly▪ Use I-deas Test to generate SRS from Response Analysis Transients▪ Use plotting capabilities to overlay and compare results▪ Easily switch between tasks▪ Lack of integration for parts of the process caused
some delays▪ Difficult to transfer shock transients from shock test system
over to I-deas
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Conclusions
▪ Combination of Test and Analysis worked well for the flexure redesign▪ Rapid redesign validated after new hardware built▪ Hardware fabricated with confidence▪Minimum cost and schedule impact
▪ Integrated software key to success▪ Project was a success