Peruskonseptit
Määritelmä
Vibration(alsoknownasoscillation)referstoaprocessofstatechange.Thatis,thereciprocatingmotionoftheobject.
Inhighschoolphysics,thereareonlyfoursimplestmotionsthatcanbestudiedquantitatively(theformulamethod,drawingmethod,andlistmethodcanbeusedtogivedefinitevalues):uniformlyvariablelinearmotion,uniformlycircularmotion,Projectilemotionandsimpleharmonicmotion.
Complicatedsportscanbequalitativelystudiedbyrelyingonthesefoursports.
Ifyouinsistonquantitativelystudyingcomplexmotions,youwillalsorelyonthesefourtypesofmotionsforapproximateresearch.
Näistä neljästä yksinkertaisimmasta liikkeestä tasaisesti muuttuva lineaarinen liike ja projektioliike ovat "ikuisesti menneitä" liikkeitä, ja liiketilan (sijainti, nopeus) ja ajan välinen suhde ontopologinen (yksi-to-one-vastaavuus) ja ei-toistettavissa.
Konsepti
Vibrationisoneofthemostcommonphenomenainnature.Fromtheuniversetothesmallsubatomicparticles,thereisnovibration.Variousformsofphysicalphenomena,includingsound,light,heat,etc.,containvibration.Peoplecannotlivewithoutvibration:thebeatingoftheheart,thevibrationoftheeardrumandthevocalcordsareallindispensablefunctionsofthehumanbody;humanvisionisstimulatedbylight,andlightisessentiallyanelectromagneticvibration;youcannotlivewithoutsoundAndmusic,andsoundproduction,transmissionandreceptionareinseparablefromvibration.Inthefieldofengineeringtechnology,vibrationphenomenaarealsoeverywhere.Forexample,thevibrationofbridgesandbuildingsundergustsorearthquakes,thevibrationofaircraftandshipsinnavigation,thevibrationofmachinetoolsandtoolsduringprocessing,thevibrationofvariouspowermachinery,theself-excitedvibrationinthecontrolsystem,etc..
Inmanycases,vibrationisconsideredanegativefactor.Forexample,vibrationcanaffectthefunctionsofprecisioninstrumentsandequipment,reduceprocessingaccuracyandsmoothness,andaggravatefatigueandwearofcomponents,therebyshorteningtheservicelifeofmachinesandstructures.Vibrationmayalsocauselargedeformationanddamagetothestructure.Somebridgeshavebeencausedbyvibration.Andcollapse;theflutterofaircraftwingsandthebuffetingofwheelsoftencauseaccidents;thevibrationofvehicles,shipsandcabinswilldegradetheloadingconditions;strongvibrationandnoisewillcauseseriouspublichazards.
However,vibrationalsohasitspositiveside.Forexample,vibrationisthebasisofcommunications,radio,television,radarandothertasks.Sincethe1950s,manyproductionequipmentandprocessesusingvibrationhaveappearedoneafteranother.Forexample,vibrationtransmission,vibrationscreening,vibrationgrinding,vibrationpolishing,vibrationpiledriving,vibrationeliminationofinternalstressandsoon.Theyhavegreatlyimprovedworkingconditionsandincreasedlaborproductivitybytenorahundredtimes.Itcanbeexpectedthatwiththecontinuousprogressofproductionpracticeandscientificresearch,theuseofvibrationwillincreasedaybyday.
Althoughvibrationphenomenaindifferentfieldshavetheirowncharacteristics,theyoftenhavesimilarmathematicaldescriptions.Itisonthebasisofthiscommonalitythatitispossibletoestablishaunifiedtheorytodealwithvariousvibrationproblems.Vibrationissuchabasicsubject.Itusesmathematics,physics,experimentsandcalculationtechniquestoexplorethemechanismofvariousvibrationphenomenaandclarifythebasiclawsofvibrationinordertoovercomethenegativefactorsofvibrationandmakeuseofitspositivefactorstobereasonable.Providetheoreticalbasisforsolvingvariousvibrationproblemsencounteredinpractice.
Tärinäluokitus
Accordingtowhetheritcanbedescribedbyadefinitetimefunctionrelationship,vibrationisdividedintotwocategories,namelydeterministicvibrationandrandomvibration(non-deterministicvibration).Deterministicvibrationcanbedescribedbyacertainmathematicalrelationship,andforaspecifiedmoment,acorrespondingfunctionvaluecanbedetermined.Randomvibrationhasrandomcharacteristics,andtheresultsofeachobservationaredifferent.Itcannotbedescribedbyprecisemathematicalrelationsandcannotpredicttheprecisevalueatanymomentinthefuture.Instead,itcanonlybedescribedbyprobabilityandstatistics.Forexample:Anearthquakeisakindofrandomvibration.
Deterministicvibrationisdividedintoperiodicvibrationandnon-periodicvibration.Periodicvibrationincludessimpleharmonicperiodicvibrationandcomplexperiodicvibration.Simpleharmonicperiodicvibrationcontainsonlyonevibrationfrequency.Thecomplexperiodicvibrationcontainsmultiplevibrationfrequencies,andtheratioofanytwovibrationfrequenciesisarationalnumber.Non-periodicvibrationincludesquasi-periodicvibrationandtransientvibration.Quasi-periodicvibrationhasnoperiodicity,andtheratioofatleastonevibrationfrequencytotheothervibrationfrequencyamongthemultiplevibrationfrequenciescontainedisirrational.Transientvibrationsarevibrationsthatcanbedescribedbyvariousimpulsefunctionsordecayfunctions.
Jatkuva ympyräliike ja yksinkertainen harmoninen liike
Pitkällä aikavälillä (tai "makronäkymä"), on jaksollinen, Toistuvasti. Seisominen aikajakson aikana (tai "mikroskooppisesti"), on topologinen ja ei-toistettavissa. Siksi kaksi viimeistä harjoitusta ovat paljon monimutkaisempia kuin kaksi ensimmäistä harjoitusta.
Yksinkertainen harmoninen tärinä
Määritelmä
Yksinkertainen harmoninen tärinäcanberegardedasauniformcircularmotionthatdecomposesintwodirectionsorthogonal(thatis,perpendiculartoeachother)(thatis,Projection),themovementinanyonedirectionissimpleharmonicvibration.Itcanbeseenthatsimpleharmonicmotionismuchmorecomplicatedthanuniformcircularmotion.
Theprojectilemotioncanbedecomposedinto:anorthogonallinearmotionwithauniformspeedandanotherlinearmotionwithauniformspeed.Therefore,theprojectilemotionismuchmorecomplicatedthanalinearmotionwithauniformspeed.
Intheprocessoforthogonaldecompositionofuniformcircularmotion,theoriginalcentripetalforcewithconstantmagnitudebecomesarestoringforcewhosemagnitudeanddirectionchangeperiodically.Yksinkertainen harmoninen tärinäiscomplexenough.Therefore,thevibrationisquantitativelystudieduptothesimpleharmonicvibration.
However,themicroscopicconditionsofvibrationthatweusuallyencounteraremuchmorecomplicatedthansimpleharmonicvibrations.Therefore,thetransitionfromstudyingsimpleharmonicvibrationtostudyingvibration,thermalvibration,etc.requiresinsight,imagination,abstractthinking,andlogicalreasoning.
ominaisuudet
Thecharacteristicsofsimpleharmonicvibrationare:1.Thereisanequilibriumposition(theonlypositionwherethevibratorshouldbestationaryafterthemechanicalenergyisexhausted).2.Thereisarestoringforcewhosesizeanddirectionarechangedperiodically.3.Singlefrequencyandconstantamplitude.
Thevibratorisanabstractionofthevibratingobject:Ignoretheshapeandsizeoftheobject,andusethemasspointtoreplacetheobjectforresearch.Thismasspointthatreplacesthevibratingobjectiscalledavibrator.
Thepositionofthevibratoratacertainmomentisrepresentedbydisplacementx.Thedisplacementxisthedistanceanddirectionofthe"positionofthevibratoratacertainmoment"obtainedbytakingtheequilibriumpositionasthereference(basepoint-datumpoint).
Whenwestudyuniformlyvariablelinearmotionandprojectilemotion,thereferencepointisselectedatthestartingpointofthemotion.Whenwestudyuniformcircularmotionandsimpleharmonicvibration,thereferencepointisselectedatthecenterofthecircleorattheequilibriumposition(fixedpoint).
Thereferenceobjectshouldoriginallybeapointthatremainsstationary(orassumedtobestationary)duringtheresearchprocess.Ourphysicalthinkingisto"studyfromadefinitequantityandaconstantquantity."
Thereisanessentialdifferencebetweenthedeterminedquantityandtheconstantquantity.Whenstudyingthelinearmotionwithuniformspeedandtheprojectilemotion,thereferencepointisselectedatthestartingpointofthemotion.Thisisacertainamount,butnotnecessarilyaconstantamount.Especiallywhenweconductasegmentedstudy,theendofeachstageisthestartingpointofthenextstage.Wechoosethestartingpointofthemovementasthereferencepoint,whichcansimplifytheresearchprocess.Thisissubjecttotheprincipleof"simplifyingcomplexity"inphysicsresearch.Therefore,wedonothesitatetochoosedifferentreferencepointsatdifferentresearchstages.
Inthestudyofuniformcircularmotionandsimpleharmonicmotion,duetotheperiodicityonthemacroscopicandthetopologyonthemicroscopic,theproblemisverycomplicated,soitisimpossibletochoosethestartingpointofthemotionanduseitasthereferencepointforresearch.Tochooseadefiniteandunchangingcenterorbalancepositionanduseitasareferencepointforresearchisalsosubjecttotheprincipleof"simplifyingcomplexity"inphysicsresearch.
Inasimpleharmonicvibration,theamplitudeAisthemaximumvalueofthedisplacementx,whichisaconstantquantity.
Theshortesttimerequiredforthevibratortoreturnfromacertainstate(positionandvelocity)tothatstateiscalledaperiodT.Thevibrationofthevibratorinaperiodiscalledatotalvibration.The"number"oftotalvibrationofthevibratorinonesecondiscalledfrequencyf.
TheperiodTisthetimeofonefullvibration,andthefrequencyfisthenumberoffullvibrationsinonesecond,soTf=1(equivalenceformula1ofthefourequations)
Thefrequencyω(pronounced[oumiga])isthecentralanglecorrespondingtoonesecond.Thecentralanglecorrespondingtoafullvibrationis2π(thatis,360degrees).Thisborrowedtheconceptofuniformcircularmotion.Inauniformcircularmotion,ωiscalledtheangularvelocity.Whenauniformcircularmotionisorthogonallydecomposedintoasimpleharmonicmotion,theangularvelocityisconvertedintoacircularfrequency.(Somepeoplecallthecircularfrequencytheangularfrequency)
Ilmeisesti ω=2πf(neljän yhtälön ekvivalenssikaava3),(värähtelysekunnin kokonaislukua vastaava kulma)
ωT=2π(neljän yhtälön ekvivalenssikaava2)(jokaista täyttä värähtelyä vastaava kulma)
Lopuksi määritätäysvärähtelyminuuttiluku"kiertonopeudeksi". Ilmeisesti n=60f(neljäekvivalenttikaava4)
Neljästä määrästä T,f,ω,n,yksitunnettu,jamuut kolme tunnetaan,joita neljää keskenään muunnettavaa kaavaa kutsutaan "neljäksi ekvivalentiksi".
Aslongastheobjectreciprocatesperiodically,itisvibration.Forexample,whenplayingaball,itsv-tdiagramcorrespondstothesawtoothwaveinelectricalengineering,soitisalsovibration.Somepeoplesay:"Theballhasnoequilibriumposition,ortheequilibriumpositionisnotatthecenterofsymmetryofmotion,soitcannotbeconsideredasvibration."Thosewhosaythat,certainlydidnotlearnelectricalengineeringwell.
ThereisabranchofmathematicscalledFourierintegral,whichcandecomposeanyvibrationintoseveralsimpleharmonicvibrations.Thefrequencyofthesesimpleharmonicvibrationsisanintegermultipleoftheoriginalvibration,andthemainfrequency(fundamentaltone)oftheoriginalvibrationistheminimumfrequencyofthesesimpleharmonicvibrations.
Muu oktaavi (yläsävy), amplitudi on paljon pienempi kuin perussävel. Siksi tämä muodostaa ei-harmonisen tärinän "sävelen" käsitteen.
TheprocessbywhichthehumaneardistinguishesthesoundingbodyistheprocessofusingFourierintegralspontaneously,automatically,andinstinctively,whichisveryclever.
Becausethefrequencyofthesoundisdeterminedbythesoundsource,nomatterhowthesoundwavepropagatestoourears,westillaccuratelyidentifythecharacteristicsofthestartingsoundbody.
Tärinä laajamittaisesti
Inabroadsense,vibrationreferstotheprocessinwhichtheparametersdescribingthestateofthesystem(suchasdisplacementandvoltage)alternateupanddownitsreferencevalue.Inanarrowsense,itreferstomechanicalvibration,thatis,vibrationinamechanicalsystem.Electromagneticvibrationistraditionallycalledoscillation.Themechanicalsystemcanmaintainvibrationandmusthaveelasticityandinertia.Duetoelasticity,whenthesystemdeviatesfromitsequilibriumposition,itwillgeneraterestoringforce,promptingthesystemtoreturntoitsoriginalposition;duetoinertia,thesystemaccumulateskineticenergyintheprocessofreturningtotheequilibriumposition,sothatthesystemmovesacrosstheequilibriumpositiontotheotherside.Itispreciselybecauseofthemutualinfluenceofelasticityandinertiathatthesystemvibrates.Accordingtothedegreeoffreedomofsystemmovement,therearesingle-degree-of-freedomsystemvibration(suchasthevibrationofapendulum)andmulti-degree-of-freedomsystemvibration.Thefinitemulti-degree-of-freedomsystemcorrespondstothediscretesystem,anditsvibrationisdescribedbyordinarydifferentialequations;theinfinitemulti-degree-of-freedomsystemcorrespondstothecontinuoussystem(suchasrods,beams,plates,shells,etc.),anditsvibrationisdescribedbypartialdifferentialequations.Asystemthatdoesnotexplicitlycontaintimeintheequationiscalledanautonomoussystem;asystemthatexplicitlycontainstimeiscalledanon-autonomoussystem.Accordingtotheforceofthesystem,therearefreevibration,attenuatedvibrationandforcedvibration.Accordingtothepropertiesofelasticforceanddampingforce,therearelinearvibrationandnonlinearvibration.Vibrationcanbedividedintodeterministicvibrationandrandomvibration.Thelatterhasnodeterministiclaw,suchasbumpsinthecourseofavehicle.Vibrationisacommonphenomenoninnatureandengineering.Thenegativeaspectsofvibrationare:itaffectsthefunctionsofinstrumentsandequipment,reducestheworkingaccuracyofmechanicalequipment,increasescomponentwear,andevencausesstructuralfatiguedamage;thepositiveaspectsofvibrationare:therearemanyequipmentandprocessesthatrequirevibration(suchasvibrationtransmission,vibrationgrinding),Vibratingpiles,etc.).Thebasictaskofvibrationanalysisistodiscussthesystem'sexcitation(i.e.input,referstotheexternaldisturbanceofthesystem,alsoknownasinterference),response(i.e.output,referstothereactionofthesystemafterbeingexcited)andthedynamiccharacteristicsofthesystem(orphysicalparameters).Relationshipbetween.Afterthe1960s,majoradvancesincomputersandvibrationtestingtechnologyopenedupbroadprospectsforthecomprehensiveutilizationofanalysis,experiment,andcalculationmethodstosolvevibrationproblems.
Mekaaninen tärinä
Määritelmä
Mekaaninen tärinäisthereciprocatingmotionofanobject(orpartofanobject)neartheequilibriumposition(thepositionwhentheobjectisstationary).Therearedifferentclassificationmethodsformechanicalvibration.Accordingtothecauseofthevibration,itcanbedividedintofreevibration,forcedvibrationandself-excitedvibration;accordingtothelawofvibration,itcanbedividedintosimpleharmonicvibration,non-harmonicperiodicvibrationandrandomvibration;accordingtothecharacteristicsofthestructuralparametersofthevibrationsystem,itcanbedividedintolinearvibrationAndnonlinearvibration;accordingtothecharacteristicsofvibrationdisplacement,itcanbedividedintotorsionalvibrationandlinearvibration.
Freevibration:Thevibrationofthemechanicalsystemaftertheexcitationorconstraintisremoved.Thevibrationismaintainedonlybyitselasticrestoringforce,andwhenthereisdamping,thevibrationwillgraduallyattenuate.Thefrequencyoffreevibrationisonlydeterminedbythephysicalpropertiesofthesystemitself,whichiscalledthenaturalfrequencyofthesystem.
Forcedvibration:Thevibrationofthemechanicalsystemcausedbycontinuousexternalexcitation.Simpleharmonicexcitationisthesimplestcontinuousexcitation.Forcedvibrationincludestransientvibrationandsteady-statevibration.Thetime-varyingvibrationthatoccurswithinaperiodoftimeatthebeginningofvibrationiscalledtransientvibration.Afterashortperiodoftime,thetransientvibrationdisappears.Thesystemcontinuouslyobtainsenergyfromtheoutsidetocompensatefortheenergydissipatedbythedamping,soitcanmakecontinuousconstantamplitudevibration.Thefrequencyofthisvibrationisthesameastheexcitationfrequency,whichiscalledsteady-statevibration.Forexample,avibrationexciterisinstalledinthemiddleofabeamfixedatbothends,andthecontinuousconstant-amplitudevibrationofthebeamaftertheexciterisactivatedforashorttimeisasteady-statevibration,andthefrequencyofthevibrationisthesameasthefrequencyoftheexciter.Whenthesystemissubjectedtoexternalforceorotherinput,itscorrespondingoutputiscalledresponse.Whenthefrequencyoftheexternalexcitationisclosetothenaturalfrequencyofthesystem,theamplitudeofthesystemwillincreasesharply.Resonanceoccurswhentheexcitationfrequencyisequaltotheresonancefrequencyofthesystem.Resonancemustbepreventedwhendesigningandusingmachinery.Forexample,inordertoensurethesafeoperationofrotatingmachinery,theworkingspeedoftheshaftshouldbeoutsideacertainrangeofitscriticalspeed.
Self-excitedvibration:Innonlinearvibration,thesystemisonlymaintainedbytheexcitationgeneratedbyitself.Inadditiontothevibrationcomponents,theself-excitedvibrationsystemalsohasnon-oscillatingenergysources,adjustmentlinksandfeedbacklinks.Therefore,itcanalsoproduceastableperiodicvibrationwhenthereisnoexternalexcitation,andthealternatingforcethatmaintainstheself-excitedvibrationisgeneratedbythemotionitselfandcontrolledbythefeedbackandadjustmentlinks.Assoonasthevibrationstops,thisalternatingforcealsodisappears.Theself-excitedvibrationhasnothingtodowiththeinitialconditions,anditsfrequencyisequaltoorclosetothenaturalfrequencyofthesystem.Forexample,theflutterofthewingsduringtheflightoftheaircraft,thecrawlingofthemachinetooltablewhenmovingatlowspeedontheslidingguiderail,theswingoftheclockpendulumandthevibrationofthestringsareallself-excitedvibrations.
Tärinän käyttökoneteollisuudessa
Theapplicationofvibrationinmachineryisverycommon.Forexample,inthevibratingscreeningindustry,thebasicprincipleisbasedontheheavyhammerinstalledattheupperandlowerendsofthemotorshaft.(Unevenheavyhammer),whichconvertstherotatingmotionofthemotorintoahorizontal,vertical,andinclinedthree-dimensionalmotion,andthentransmitsthismotiontothescreensurface.Ifyouchangethephaseangleoftheupperandlowerweights,thedirectionoftraveloftherawmaterialscanbechanged.
Vaara ja tärinäsuojausihmiskeholle
1.Tuotannossa kohtasi tärinälähteitä
(1) niittauskone, pneumaattiset työkalut, kuten kallioporat ja tuulilapiot;
(2) Konetyökalut, kuten sähköporat, sähkösahat, metsäkonesahat, hiomakoneet, kiillotuskoneet, hiomakoneet, tienhoitotamppauskoneet jne.;
(3) Dieselkomotiivit, laivat, moottoripyörät ja muut kuljetusajoneuvot;
(4) Traktorit, hakkuukoneet, puintikoneet ja muut maatalouskoneet.
Toiseksi värähtelyn vaikutus eri ihmisjärjestelmiin
(1)Muutokset elektroenkefalogrammissa;muutokset ehdollisessa refleksilatenssissa;sympaattinen epävakaus;verenpaineen epävakaus, rytmihäiriöt jne.;Ihonsensorin toiminto on heikentynyt, kuten kosketus, lämpö, kipu, erityisesti tärinätuntemukset,joka hämärtyy.
(2)Vibrationof40~300Hzcancausechangesinthemorphologyandtensionofperipheralcapillaries,manifestedasperipheralvasospasmandabnormalcerebralbloodflowdiagram;bradycardiaandsinusrhythmcanoccurintheheart.Qiandintra-room,indoor,atrioventricularconductionblock,etc.
(3) Vähentynyt kahvan voimakkuus, epänormaali elektromyogrammi, lihasvärinä, lihastrofia ja kipu jne.
(4)Large-amplitudevibrationbelow40Hzcaneasilycausechangesinbonesandjoints.Bonetradeformation,osteoporosis,boneandjointdeformationandnecrosiscanbeseenonboneX-rayfilms.
(5)Thehearingchangescausedbyvibrationarecharacterizedbyhearinglossinthe125-250Hzfrequencyband,butintheearlystage,thehearinglossisstilldominatedbythehighfrequencyband,andthenthelowfrequencyhearinglossoccurs.Vibrationandnoisehaveacombinedeffect.
(6)Long-termuseofvibrationtoolscancauselocalvibrationdiseases.Localvibrationdiseaseisadiseasemainlycausedbyperipheralcirculatorydisorders,anditcanalsoaffectthenervesandmotorfunctionsofthelimbs.Thesiteofthediseaseisusuallyattheendoftheupperextremity,andthetypicalmanifestationisparoxysmalwhiteningofthefingers(referredtoaswhitefingers).Inmycountry,localvibrationdiseasewasdesignatedasanoccupationaldiseasein1957.
(7)Thefactorsthataffectvibrationarevibrationfrequency,accelerationandamplitude.Thehumanbodyonlyproducesvibrationsensationto1~1000Hzvibration.Frequencyplaysanimportantroleinthepathogenesis.30~300Hzmainlycausesperipheralvasospasmandwhitefingers.Whenthefrequencyisthesame,thegreatertheacceleration,thegreaterthedamage.Vibrationswithlargeamplitudeandlowfrequencymainlyactonthevestibularorgansandcancauseinternalorganstoshift.Whenthefrequencyisconstant,thegreatertheamplitude,thegreatertheimpactonthebody.Coldisoneoftheimportantexternalconditionsfortheonsetofvibrationdisease.Coldcanreducebloodflowandchangebloodcirculation,leadingtoinsufficientlocalbloodsupplyandpromotingtheoccurrenceofvibrationdisease.Thelongertheexposuretovibration,thehighertheincidenceofvibrationdisease.Restatworkhasapositiveeffectonthepreventionofvibrationdiseases.Thesensitivityofapersontovibrationisrelatedtothepositionofthebody.Thehumanbodyissensitivetoverticalvibrationwhenstandingup;itissensitivetohorizontalvibrationwhenlyingdown.Somejobsrequireaforcedposture,evenifthechest,abdomenorlowerlimbsareclosetothevibratingobject,theharmofvibrationisevengreater.Whenthehardnessoftheprocessedpartsishigh,theworkerswillsuffermoredamage,andthevibrationwithhighimpactforcewilleasilycausethebonesandjointstodisease.
3.Tärinävaarojen hallinta
Reformtheprocess,fundamentallyeliminateandreducetheoperationofhand-heldpneumatictools,usinghydraulicpressure,welding,andbondingInsteadofriveting;improvepneumatictools,adopteffectivevibrationreductionmeasures,andreformthepositionoftoolexhaust;useautomaticandsemi-automaticcontroldevicestoreducedirectcontactwiththevibratingbody;thosewhoholdvibrationtoolsshouldweardouble-layerpadsandfingerlessGlovesorpaddedfoamplasticfingerlessgloves,andpayattentiontokeepwarmandcold;fornewworkers,apre-employmentphysicalexamination,patientswithvasospasm,acralvasculardisorders,andneuritis,areprohibitedfromperformingvibrationoperations;workersexposedtovibrationshouldberegularlyTheintervalbetweenphysicalexaminationsshouldbe2to3years;necessarytreatmentsshouldbegiventopatientswithvibrationdiseases,andthosewithrepeatedcomplaintsshouldberemovedfromthevibrationworkposition.
Theactualvibrationproblemisoftenintricateandcomplicated,anditmayincludeseveralaspectssuchasidentification,analysis,andsynthesisatthesametime.Usuallytheactualproblemisabstractedasamechanicalmodel,whichisessentiallyasystemidentificationproblem.Theprocessofsolvingthesystemmodelformulationisessentiallytheprocessofvibrationanalysis.Analysisisnottheendoftheproblem.Theresultsoftheanalysismustalsobeusedtoimprovethedesignortroubleshoot(actualorpotential).Thisistheproblemofvibrationsynthesisordesign.
Themethodtosolvethevibrationproblemisnothingmorethantheoreticalanalysisandexperimentalresearch,whicharecomplementarytoeachother.Inthetheoreticalanalysisofvibration,alargenumberofmathematicaltools,especiallytheincreasingdevelopmentofdigitalcomputers,providepowerfulmeanstosolvecomplexvibrationproblems.Sincethemid-1960s,therehavebeenmajorbreakthroughsandadvancesinvibrationtestingtechnology,whichinturnopenedupbroadprospectsforexperiments,analysisandresearchonvibrationproblems.Seelinearvibration,nonlinearvibration,randomvibration.