最新冲压模具外文英语文献翻译.docx
- 文档编号:28165748
- 上传时间:2023-07-08
- 格式:DOCX
- 页数:17
- 大小:346.73KB
最新冲压模具外文英语文献翻译.docx
《最新冲压模具外文英语文献翻译.docx》由会员分享,可在线阅读,更多相关《最新冲压模具外文英语文献翻译.docx(17页珍藏版)》请在冰豆网上搜索。
最新冲压模具外文英语文献翻译
冲压模具外文英语文献翻译
外
文
翻
译
HeatTreatmentofDieandMouldOrientedConcurrentDesign
LIXiong,ZHANGHong-bing,RUANXue—yu,LUOZhong—hua,ZHANGYan
Abstract:
Manydisadvantagesexistinthetraditionaldiedesignmethodwhichbelongstoserialpattern.Itiswellknownthatheattreatmentishighlyimportanttothedies.Anewideaofconcurrentdesignforheattreatmentprocessofdieandmouldwasdevelopedinordertoovercometheexistentshortcomingsofheattreatmentprocess.HeattreatmentCAD/CAEwasintegratedwithconcurrentcircumstanceandtherelevantmodelwasbuilt.Theseinvestigationscanremarkablyimproveefficiency,reducecostandensurequalityofRandDforproducts.
Keywords:
diedesign;heattreatment;mould
Traditionaldieandmoulddesign,mainlybyexperienceorsemi—experience,isisolatedfrommanufacturingprocess.Beforethedesignisfinalized,theschemeofdieandmouldisusuallymodifiedtimeandagain,thussomedisadvantagescomeintobeing,suchaslongdevelopmentperiod,highcostanduncertainpracticaleffect.Duetostrongdesiresforprecision,servicelife,developmentperiodandcost,moderndieandmouldshouldbedesignedandmanufacturedperfectly.Thereforemoreandmoreadvancedtechnologiesandinnovationshavebeenapplied,forexample,concurrentengineering,agilemanufacturingvirtualmanufacturing,collaborativedesign,etc.
Heattreatmentofdieandmouldisasimportantasdesign,manufactureandassemblybecauseithasavitaleffectonmanufacture,assemblyandservicelife.Designandmanufactureofdieandmouldhaveprogressedrapidly,butheattreatmentlaggedseriouslybehindthem.Asdieandmouldindustrydevelops,heattreatmentmustensuredieandmouldtherearegoodstateofmanufacture,assemblyandwear—resistantpropertiesbyrequest.Impertinentheattreatmentcaninfluencedieandmouldmanufacturingsuchasover—hardand—softandassembly.Traditionallytheheattreatmentprocesswasmadeoutaccordingtothemethodsandpropertiesbroughtforwardbydesigner.Thiscouldmakethedesignersofdieandmouldandheattreatmentdivergefromeachother,forthedesignersofdieandmouldcouldnotfullyrealizeheattreatmentprocessandmaterialsproperties,andcontrarilythedesignersrarelyunderstoodtheserviceenvironmentanddesigningthought.Thesedivergenceswillimpacttheprogressofdieandmouldtoagreatextent.Accordingly,iftheprocessdesignofheattreatmentisconsideredintheearlydesigningstage,theaimsofshorteningdevelopmentperiod,reducingcostandstabilizingqualitywillbeachievedandthesublimationofdevelopmentpatternfromserialtoconcurrentwillberealized.
Concurrentengineeringtakescomputerintegrationsystemasacarrier,attheverystartsubsequenteachstageandfactorshavebeenconsideredsuchasmanufacturing,heattreating,propertiesandsoforthinordertoavoidtheerror.Theconcurrentpatternhasdismissedthedefectofserialpattern,whichbringaboutarevolutionagainstserialpattern.
Inthepresentwork.theheattreatmentwasintegratedintotheconcurrentcircumstanceofthedieandmoulddevelopment,andthesystemicandprofoundresearchwasperformed.
1HeatTreatmentUnderConcurrentCircumstance
Theconcurrentpatterndiffersultimatelyfromtheserialpattern(seeFig.1).Withregardtoserialpattern,thedesignersmostlyconsiderthestructureandfunctionofdieandmould,yethardlyconsidertheconsequentprocess,sothattheformermistakesareeasilyspreadbackwards.Meanwhile,thedesigndepartmentrarelycommunicateswiththeassembling,costaccountingandsalesdepartments.Theseproblemscertainlywillinfluencethedevelopmentprogressofdieandmouldandthemarketforeground.Whereasintheconcurrentpattern,therelationsamongdepartmentsareclose,therelateddepartmentsalltakepartinthedevelopmentprogressofdieandmouldandhavecloseintercommunionwithpurchasers.Thisispropitioustoeliminationoftheconflictsbetweendepartments,increasetheefficiencyandreducethecost.
Heattreatmentprocessintheconcurrentcircumstanceismadeoutnotafterblueprintandworkpiecetakenbutduringdieandmoulddesigning.Inthisway,itisfavorabletooptimizingtheheattreatmentprocessandmakingfulluseofthepotentialofthematerials.
2IntegrationofHeatTreatmentCAD/CAEforDieandMould
ItcanbeseenfromFig.2thattheprocessdesignandsimulationofheattreatmentarethecoreofintegrationframe.AfterinformationinputviaproductdesignmoduleandheattreatmentprocessgeneratedviaheattreatmentCADandheattreatmentCAEmodulewillautomaticallydividethemeshforpartsdrawing,simulationtemperaturefieldmicrostructureanalysisafterheat—treatmentandthedefectofpossibleemerging(suchasoverheat,overburning),andthentheheattreatmentprocessisjudgediftheoptimizationismadeaccordingtotheresultreappearedbystereoscopicvisiontechnology.MoreovertoolandclampingapparatusCADandCAMareintegratedintothissystem.
Theconcurrentengineeringbasedintegrationframecanshareinformationwithotherbranch.Thatmakesforoptimizingtheheattreatmentprocessandensuringtheprocesssound.
2.13-Dmodelandstereoscopicvisiontechnologyforheattreatment
Theproblemsaboutmaterials,structureandsizefordieandmouldcanbediscoveredassoonaspossibleby3-Dmodelforheattreatmentbasedontheshapeofdieandmould.Modelingheatingconditionandphasetransformationconditionfordieandmouldduringheattreatmentareworkable,becauseithasbeenbrokenthroughforthecalculationofphasetransformationthermodynamics,phasetransformationkinetics,phasestress,thermalstress,heattransfer,hydrokineticsetc.Forexample,3-Dheat—conductingalgorithmmodelsforlocalheatingcomplicatedimpressionandasymmetricdieandmould,andMARCsoftwaremodelsformicrostructuretransformationwasused.Computercanpresenttheinformationsoftemperature,microstructureandstressatarbitrarytimeanddisplaytheentiretransformationprocedureintheformof3-Dbycouplingtemperaturefield,microstructurefieldandstressfield.Ifthepropertycanbecoupled,variouspartialpropertiescanbepredictedbycomputer.
2.2Heattreatmentprocessdesign
Duetothespecialrequestsforstrength,hardness,surfaceroughnessanddistortionduringheattreatmentfordieandmould,theparametersincludingquenchingmediumtype,quenchingtemperatureandtemperingtemperatureandtime,mustbeproperlyselected,andwhetherusingsurfacequenchingorchemicalheattreatmenttheparametersmustberightlydetermined.Itisdifficulttodeterminetheparametersbycomputerfully.Sincecomputertechnologydevelopsquicklyinrecentdecades,thedifficultywithlarge—scalecalculationhasbeenovercome.Bysimulatingandweighingtheproperty,thecostandtherequiredperiodafterheattreatment.itisnotdifficulttooptimizetheheattreatmentprocess.
2.3Databaseforheattreatment
AheattreatmentdatabaseisdescribedinFig.3.Thedatabaseisthefoundationofmakingoutheattreatmentprocess.Generally,heattreatmentdatabaseisdividedintomaterialsdatabaseandprocessdatabase.Itisaninexorabletrendtopredictthepropertybymaterialsandprocess.Althoughitisdifficulttoestablishapropertydatabase,itisnecessarytoestablishthedatabasebyaseriesoftests.Thematerialsdatabaseincludessteelgrades,chemicalcompositions,propertiesandhomeandabroadgradesparalleltables.Theprocessdatabaseincludesheattreatmentcriterions,classes,heatpreservationtimeandcoolingvelocity.Basedonthedatabase,heattreatmentprocesscanbecreatedbyinferringfromrules.
2.4Toolandequipmentforheattreatment
Afterheattreatmentprocessisdetermined,toolandequipmentCAD/CAEsystemtransferstheinformationaboutdesignandmanufacturetothenumericalcontroldevice.Throughrapidtoolingprototype,thereliabilityoftoolandtheclampingapparatuscanbejudged.Thewholeprocedureistransferredbynetwork,inwhichthereisnoman—madeinterference.
3KeyTechnique
3.1Couplingoftemperature,microstructure,stressandproperty
Heattreatmentprocedureisaprocedureoftemperature-microstructure—stressinteraction.Thethreefactorscanallinfluencetheproperty(seeFig.4).Duringheatingandcooling,hotstressandtransformationwillcomeintobeingwhenmicrostructurechanges.Transformationtemperature-microstructureandtemperature—microstructure—andstress-propertyinteractoneachother.Researchontheinteractionofthefourfactorshasbeengreatlydeveloped,buttheuniversalmathematicmodelhasnotbeenbuilt.Manymodelsfitthetestnicely,buttheycannotbeputintopractice.Difficultieswithmostofmodelsaresolvedinanalyticsolution,andnumericalmethodisemployedsothattheinaccuracyofcalculationexists.
Evenso,comparingexperiencemethodwithqualitativeanalysis,heattreatmentsimulationbycomputermakesgreatprogress.
3.2Establishmentandintegrationofmodels
Thedevelopmentprocedurefordieandmouldinvolvesdesign,manufacture,heattreatment,assembly,maintenanceandsoon.Theyshouldhaveowndatabaseandmode1.Theyareinserieswitheachotherbytheentity—relationmodel.Throughestablishingandemployingdynamicinferencemechanism,theaimofoptimizingdesigncanbeachieved.Therelationbetweenproductmodelandothermodelswasbuilt.Theproductmodelwillchangeincasethecellmodelchanges.Infact,itbelongstotherelationofdatawithdieandmould.Afterheattreatmentmodelisintegratedintothesystem,itisnomoreanisolatedunitbutamemberwhichisclosetoothermodelsinthesystem.Aftersearching,calculatingandreasoningfromtheheattreatmentdatabase,procedureforheattreatment,whichisre
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- 最新 冲压 模具 外文 英语 文献 翻译