WI305-Applied-Modal-and-Operating-Deflection-Shape-Analysis.pdf
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22 5 days 5 days Work Identification WI305 Applied Modal and Operating Deflection Shape Analysis Course description Introductory analysis lecture This portion of the course provides background information on Experimental Modal and Operating Deflection Shape (ODS) Analysis topics with extensive case histories and instructor experience • Advanced analysis without complex mathematics • Understanding modes of simplified ani- mation shapes (beams, columns, plates, and shells) • How to construct meaningful computer models of machines and structures • Choosing required numbers of points and directions for ODS and Modal analysis • Recommended measurement setups for ODS and Modal analysis field testing • How to accurately interpret computer model animations (leading to problem resolution) • How to confirm what specific compo- nent is resonant on a complex machine, support frame, foundation and attached piping, ductwork, and more • How to identify optimum corrective actions • Presentation of numerous demonstra- tions and class exercises • ODS and Modal real-world case studies Recommended for: Plant personnel that need a basic understanding of Modal and Operat- ing Deflection Shape Analysis tech- niques on machinery and structures, as well as a practical understanding of ME’scope VES modal/ODS soft- ware Professionals whose primary responsibility is the maintenance of high level performance, reliability, and availability of critical process machinery, including rotating ma- chinery specialists and consultants, advanced mechanics, engineers, and advanced technicians Course objective To provide students with a working knowledge of Experimental Modal Analysis and Operating Deflection Shape Analysis (ODS) from a field vibration analyst perspective Upon completion of this course, students learn how to: • Create computer models of plant machinery and structures • Acquire meaningful Modal and ODS measurements • Generate and import Modal and Operating Deflection Shape analysis measurements • Generate meaningful machinery computer animations needed to detect and resolve noteworthy problems such as resonance, structural weakness, foot related problems, design inadequacies, sources of excessive vibration Hands-On ME’scopeVES Software Training The hands-on training utilizes the ME’scopeVES Handbook This is a continu- ally updated practical step-by-step soft- ware guide and reference source that can be consulted over and over again Complex methodologies are completely worked out for the student helping to ensure accurate analysis and repeatable results Multiple hands-on projects that include real-world data cover all major ME’scopeVES software applications • Establish a project • Create a computer model of a machine or structure • Import data from the data acquisition instrument • ODS and ODS FRF data interpretation • Modal data interpretation • Modal analysis curve fitting and genera- tion of computer animations • Structural dynamics modification (SDM) Students are required to bring a laptop computer with Windows XP or Vista. Vibrant Technology ME’scopeVES software and extensive training manuals will be provided. Prerequisite 5–8 years full-time vibration analysis experience SKF Vibration Analysis III (WI213) and SKF Advanced Vibration Analysis (WI304) or commensurate field experience Knowledge of vibration sensors and vibration instruments 2013 course schedule July 15 –19 Charlotte, NC Class starts Monday at 8:00 AM and ends Friday at 12:00 Noon 4 days 2013 tuition Public classes $1,995 On-site per class $13,495 # people 5 6+ people $495 per person
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ODS and Vibration Analysis
Transcript of WI305-Applied-Modal-and-Operating-Deflection-Shape-Analysis.pdf
22
5 days
5 days
Work Identification
WI305Applied Modal and
Operating Deflection Shape Analysis
Course descriptionIntroductory analysis lectureThisportionofthecourseprovidesbackgroundinformationonExperimentalModalandOperatingDeflectionShape(ODS)Analysistopicswithextensivecasehistoriesandinstructorexperience .•Advancedanalysiswithoutcomplex
mathematics•Understandingmodesofsimplifiedani-
mationshapes(beams,columns,plates,andshells)
•Howtoconstructmeaningfulcomputermodelsofmachinesandstructures
•ChoosingrequirednumbersofpointsanddirectionsforODSandModalanalysis
•RecommendedmeasurementsetupsforODSandModalanalysisfieldtesting
•Howtoaccuratelyinterpretcomputermodelanimations(leadingtoproblemresolution)
•Howtoconfirmwhatspecificcompo-nentisresonantonacomplexmachine,supportframe,foundationandattachedpiping,ductwork,andmore
•Howtoidentifyoptimumcorrectiveactions
•Presentationofnumerousdemonstra-tionsandclassexercises
•ODSandModalreal-worldcasestudies
Recommended for:PlantpersonnelthatneedabasicunderstandingofModalandOperat-ingDeflectionShapeAnalysistech-niquesonmachineryandstructures,aswellasapracticalunderstandingofME’scopeVESmodal/ODSsoft-ware .Professionalswhoseprimaryresponsibilityisthemaintenanceofhighlevelperformance,reliability,andavailabilityofcriticalprocessmachinery,includingrotatingma-chineryspecialistsandconsultants,advancedmechanics,engineers,andadvancedtechnicians .
Course objectiveToprovidestudentswithaworkingknowledgeofExperimentalModalAnalysisandOperatingDeflectionShapeAnalysis(ODS)fromafieldvibrationanalystperspective .Uponcompletionofthiscourse,studentslearnhowto:•Createcomputermodelsofplant
machineryandstructures•AcquiremeaningfulModalandODS
measurements•GenerateandimportModaland
OperatingDeflectionShapeanalysismeasurements
•Generatemeaningfulmachinerycomputeranimationsneededtodetectandresolvenoteworthyproblemssuchasresonance,structuralweakness,footrelatedproblems,designinadequacies,sourcesofexcessivevibration .
Hands-On ME’scopeVES Software TrainingThehands-ontrainingutilizestheME’scopeVESHandbook .Thisisacontinu-allyupdatedpracticalstep-by-stepsoft-wareguideandreferencesourcethatcanbeconsultedoverandoveragain .Complexmethodologiesarecompletelyworkedoutforthestudenthelpingtoensureaccurateanalysisandrepeatableresults .Multiplehands-onprojectsthatincludereal-worlddatacoverallmajorME’scopeVESsoftwareapplications .•Establishaproject•Createacomputermodelofamachine
orstructure•Importdatafromthedataacquisition
instrument•ODSandODSFRFdatainterpretation•Modaldatainterpretation•Modalanalysiscurvefittingandgenera-
tionofcomputeranimations•Structuraldynamicsmodification(SDM)
Students are required to bring a laptop computer with Windows XP or Vista. Vibrant Technology ME’scopeVES software and extensive training manuals will be provided.
Prerequisite5–8yearsfull-timevibrationanalysisexperience .SKFVibrationAnalysisIII(WI213)andSKFAdvancedVibrationAnalysis(WI304)orcommensuratefieldexperience .Knowledgeofvibrationsensorsandvibrationinstruments .
2013 course schedule
July15–19 Charlotte,NCClass starts Monday at 8:00 AM and ends Friday at 12:00 Noon
4 days
2013 tuition
Publicclasses $1,995
On-site
perclass $13,495
#people 5
6+people $495perperson
