首页 人人文库网 > 图纸下载 > 毕业设计 > jzc350混凝土搅拌机总体设计及搅拌系统优化设计【全套含有CAD图纸三维建模】
说明书.doc

jzc350混凝土搅拌机总体设计及搅拌系统优化设计【全套含有CAD图纸三维建模】

收藏

资源目录
跳过导航链接。
jzc350混凝土搅拌机总体设计及搅拌系统优化设计【全套含有CAD图纸三维建模】.zip
说明书.doc---(点击预览)
摘要目录.doc---(点击预览)
中英文翻译文献.doc---(点击预览)
jzc350混凝土搅拌机总体设计及搅拌系统优化设计.doc---(点击预览)
三维SolidWorks
jzc350
JS500.1-02.SLDPRT
JS500.1-05.SLDPRT
JS500.1-06.SLDPRT
JS500.1-07.SLDPRT
JS500.1-08.SLDPRT
JS500.1-10.SLDPRT
JS500.1-11.SLDPRT
JS500.1.3-01.SLDPRT
JS500.1.3-02.SLDPRT
JS500.1.3-03.SLDPRT
JS500.1.3-04.SLDPRT
JS500.1.3-05.SLDPRT
JS500.1.3.SLDASM
JS500.1.5-01.SLDPRT
JS500.1.5-02.SLDPRT
JS500.1.5-03.SLDPRT
JS500.1.5.SLDASM
JS500.1.6.SLDASM
JS500.2.1.SLDPRT
JS500B.2.2.SLDPRT
JZ350B.1.1-13.SLDPRT
JZC350.1.1.1-01.SLDPRT
JZC350.1.1.1-02.SLDPRT
JZC350.1.1.1-03.SLDPRT
JZC350.1.1.1-04.SLDPRT
JZC350B.1-04.SLDPRT
JZC350B.1.1-04.SLDPRT
JZC350B.1.1-05.SLDPRT
JZC350B.1.1-06.SLDPRT
JZC350B.1.1-07.SLDPRT
JZC350B.1.1-08.SLDPRT
JZC350B.1.1-10.SLDPRT
JZC350B.1.1-11.SLDPRT
JZC350B.1.1-12.SLDPRT
JZC350B.1.1.1.SLDASM
JZC350B.1.1.SLDASM
JZC350B.1.2-01.SLDPRT
JZC350B.1.2.-02.SLDPRT
JZC350B.2.1.3.SLDPRT
JZC350B.2.1.SLDPRT
JZC350B.4.1.SLDPRT
JZC350B.6-.SLDPRT
JZC350B.6-05.SLDPRT
JZC350B.6-06.SLDPRT
JZC350B.6-10.SLDPRT
JZC350B.6-12.SLDPRT
JZC350B.6-14.SLDPRT
JZC350B.6.2.SLDPRT
JZC350B.6.3.SLDPRT
JZC350B.7.4.SLDPRT
JZC350B.8.1.SLDPRT
JZC350B.8.2.SLDPRT
JZC350B.8.SLDPRT
m08x25l.SLDPRT
m12x110.SLDASM
m12X110.SLDPRT
MC_[EBDQU`F_ZW9[PKT9~A9.jpg
MIAI`7~0`ME}OS600W{F[1L.png
was_12.SLDPRT
ZHUANGPEITU.SLDASM
ZHUANGPEITU.SLDPRT
ZHUANGPEITU.STEP
~$JS500.1-05.SLDPRT
~$JS500.1-06.SLDPRT
~$JS500.1-07.SLDPRT
~$JS500.1-08.SLDPRT
~$JS500.1.3-01.SLDPRT
~$JS500.1.3-02.SLDPRT
~$JS500.1.3-03.SLDPRT
~$JS500.1.3-04.SLDPRT
~$JS500.1.3-05.SLDPRT
~$JS500.1.3.SLDASM
~$JS500.1.5-01.SLDPRT
~$JS500.1.5-02.SLDPRT
~$JS500.1.5-03.SLDPRT
~$JS500.1.5.SLDASM
~$JS500.1.6.SLDASM
~$JS500.2.1.SLDPRT
~$JZ350B.1.1-13.SLDPRT
~$JZC350.1.1.1-01.SLDPRT
~$JZC350.1.1.1-02.SLDPRT
~$JZC350.1.1.1-03.SLDPRT
~$JZC350.1.1.1-04.SLDPRT
~$JZC350B.1-04.SLDPRT
~$JZC350B.1.1-04.SLDPRT
~$JZC350B.1.1-05.SLDPRT
~$JZC350B.1.1-08.SLDPRT
~$JZC350B.1.1-11.SLDPRT
~$JZC350B.1.1-12.SLDPRT
~$JZC350B.1.1.1.SLDASM
~$JZC350B.1.1.SLDASM
~$JZC350B.1.2-01.SLDPRT
~$JZC350B.1.2.-02.SLDPRT
~$JZC350B.2.1.3.SLDPRT
~$JZC350B.2.1.SLDPRT
~$JZC350B.4.1.SLDPRT
~$JZC350B.6-.SLDPRT
~$JZC350B.6-05.SLDPRT
~$JZC350B.6-06.SLDPRT
~$JZC350B.6-10.SLDPRT
~$JZC350B.6-12.SLDPRT
~$JZC350B.6-14.SLDPRT
~$JZC350B.6.2.SLDPRT
~$JZC350B.6.3.SLDPRT
~$JZC350B.7.4.SLDPRT
~$JZC350B.8.2.SLDPRT
~$JZC350B.8.SLDPRT
~$m08x25l.SLDPRT
~$m12x110.SLDASM
~$m12X110.SLDPRT
~$was_12.SLDPRT
~$ZHUANGPEITU.SLDASM
装配图.STEP
零件1.SLDPRT.SLDPRT
JZC350B.1.1.dwg
JZC350B.1.dwg
JZC350B.4 搅拌装置剖面图.dwg
JZC350B.4-01.dwg
JZC350B.4-02.dwg
JZC350B.6a.dwg
JZC350B.7.1.dwg
JZC350B.8.dwg
JZC350B总图.dwg
压缩包内文档预览:(预览前20页/共55页)
预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图 预览图
编号:10053353    类型:共享资源    大小:13.69MB    格式:ZIP    上传时间:2018-04-27 上传人:机****料 IP属地:河南
240
积分
举报
举报 版权申诉
版权申诉 word格式文档无特别注明外均可编辑修改;预览文档经过压缩,下载后原文更清晰! 立即下载
关 键 词:
jzc350 混凝土搅拌机 总体 整体 设计 搅拌 系统 优化 全套 含有 cad 图纸 三维 建模
资源描述:


内容简介:
1附录外文资料与中文翻译外文资料COMPARINGMIXINGPERFORMANCEOFUNIAXIALANDBIAXIALBINBLENDERSAMITMEHROTRAANDFERNANDOJMUZZIODEPARTMENTOFCHEMICALANDBIOCHEMICALENGINEERING,RUTGERSUNIVERSITY,PISCATAWAY,NJ,08855,UNITEDSTATESRECEIVED17FEBRUARY2009REVISED30MAY2009ACCEPTED14JUNE2009AVAILABLEONLINE27JUNE2009ABSTRACTTHEDYNAMICSINVOLVEDINPOWDERMIXINGREMAINSATOPICOFINTERESTFORMANYRESEARCHERSHOWEVERTHETHEORYSTILLREMAINSUNDERDEVELOPEDMOSTOFTHEMIXERSARESTILLDESIGNEDANDSCALEDUPONEMPIRICALBASISINMANYINDUSTRIES,INCLUDINGPHARMACEUTICAL,THEMAJORITYOFBLENDINGISPERFORMEDUSING“TUMBLINGMIXERS”TUMBLINGMIXERSAREHOLLOWCONTAINERSWHICHAREPARTIALLYLOADEDWITHMATERIALSANDROTATEDFORSOMENUMBEROFREVOLUTIONSSOMECOMMONEXAMPLESINCLUDEHORIZONTALDRUMMIXERS,VBLENDERS,DOUBLECONEBLENDERSANDBINBLENDERSINALLTHESEMIXERSWHILEHOMOGENIZATIONINTHEDIRECTIONOFROTATIONISFAST,MEDIATEDBYACONVECTIVEMIXINGPROCESS,MIXINGINTHEHORIZONTALAXIALDIRECTION,DRIVENBYADISPERSIVEPROCESS,ISOFTENMUCHSLOWERINTHISPAPER,WEEXPERIMENTALLYINVESTIGATEANEWTUMBLINGMIXERTHATROTATESWITHRESPECTTOTWOAXESAHORIZONTALAXISTUMBLINGMOTION,ANDACENTRALSYMMETRYAXISSPINNINGMOTIONADETAILEDSTUDYISCONDUCTEDONMIXINGPERFORMANCEOFPOWDERSANDTHEEFFECTOFCRITICALFUNDAMENTALPARAMETERSINCLUDINGBLENDERGEOMETRY,SPEED,FILLLEVEL,PRESENCEOFBAFFLES,LOADINGPATTERN,ANDAXISOFROTATIONINTHISWORKACETAMINOPHENISUSEDASTHEACTIVEPHARMACEUTICALINGREDIENTANDTHEFORMULATIONCONTAINSCOMMONLYUSEDEXCIPIENTSSUCHASAVICELANDLACTOSETHEMIXINGEFFICIENCYISCHARACTERIZEDBYEXTRACTINGSAMPLESAFTERPREDETERMINEDNUMBEROFREVOLUTIONS,ANDANALYZINGTHEMUSINGNEARINFRAREDSPECTROSCOPYTODETERMINECOMPOSITIONAL2DISTRIBUTIONRESULTSSHOWTHEIMPORTANCEOFPROCESSVARIABLESINCLUDINGTHEAXISOFROTATIONONHOMOGENEITYOFPOWDERBLENDSGRAPHICALABSTRACTTHEDYNAMICSINVOLVEDINPOWDERMIXINGREMAINSATOPICOFINTERESTFORMANYRESEARCHERSHOWEVERTHETHEORYSTILLREMAINSUNDERDEVELOPEDMOSTOFTHEMIXERSARESTILLDESIGNEDANDSCALEDUPONEMPIRICALBASISINMANYINDUSTRIES,INCLUDINGPHARMACEUTICAL,THEMAJORITYOFBLENDINGISPERFORMEDUSING“TUMBLINGMIXERS”INALLTHESEMIXERSWHILEHOMOGENIZATIONINTHEDIRECTIONOFROTATIONISFAST,MEDIATEDBYACONVECTIVEMIXINGPROCESS,MIXINGINTHEHORIZONTALAXIALDIRECTION,DRIVENBYADISPERSIVEPROCESS,ISOFTENMUCHSLOWERINTHISPAPER,WEEXPERIMENTALLYINVESTIGATEANEWTUMBLINGMIXERTHATROTATESWITHRESPECTTOTWOAXESAHORIZONTALAXISTUMBLINGMOTION,ANDACENTRALSYMMETRYAXISSPINNINGMOTIONKEYWORDSPOWDERMIXINGCOHESIONBLENDERMIXERRELATIVESTANDARDDEVIATIONNIRACETAMINOPHENARTICLEOUTLINE1INTRODUCTION2MATERIALSANDMETHODS21NEARINFRAREDSPECTROSCOPY22BINBLENDERSUSEDINTHISSTUDYUNIAXIALBLENDERBLENDER1,BIAXIALBLENDERBLENDER223EXPERIMENTALMETHOD3RESULTS4CONCLUSIONREFERENCES31INTRODUCTIONPARTICLEBLENDINGISAREQUIREDSTEPINAVARIETYOFAPPLICATIONSSPANNINGTHECERAMIC,FOOD,GLASS,METALLURGICAL,POLYMERS,ANDPHARMACEUTICALSINDUSTRIESDESPITETHELONGHISTORYOFDRYSOLIDSMIXINGORPERHAPSBECAUSEOFIT,COMPARATIVELYLITTLEISKNOWNOFTHEMECHANISMSINVOLVED1,2AND3ACOMMONTYPEOFBATCHINDUSTRIALMIXERISTHETUMBLINGBLENDER,WHEREGRAINSFLOWBYACOMBINATIONOFGRAVITYANDVESSELROTATIONALTHOUGHTHETUMBLINGBLENDERISAVERYCOMMONDEVICE,MIXINGANDSEGREGATIONMECHANISMSINTHESEDEVICESARENOTFULLYUNDERSTOODANDTHEDESIGNOFBLENDINGEQUIPMENTISLARGELYBASEDONEMPIRICALMETHODSTUMBLERSARETHEMOSTCOMMONBATCHMIXERSININDUSTRY,ANDALSOFINDUSEINMYRIADOFAPPLICATIONASDRYERS,KILNS,COATERS,MILLSANDGRANULATORS4,5,6,7AND8WHILEFREEFLOWINGMATERIALSINROTATINGDRUMSHAVEBEENEXTENSIVELYSTUDIED9AND10,COHESIVEGRANULARFLOWSINTHESESYSTEMSARESTILLNOTCOMPLETELYUNDERSTOODLITTLEISKNOWNABOUTTHEEFFECTOFFUNDAMENTALPARAMETERSSUCHASBLENDERGEOMETRY,SPEED,FILLLEVEL,PRESENCEOFBAFFLES,LOADINGPATTERNANDAXISOFROTATIONONMIXINGPERFORMANCEOFCOHESIVEPOWDERSORTHESCALINGREQUIREMENTSOFTHEDEVICESHOWEVER,CONVENTIONALTUMBLERS,ROTATINGAROUNDAHORIZONTALAXIS,ALLSHAREANIMPORTANTCHARACTERISTICWHILEHOMOGENIZATIONINTHEDIRECTIONOFROTATIONISFAST,MEDIATEDBYACONVECTIVEMIXINGPROCESS,MIXINGINTHEHORIZONTALAXIALDIRECTION,DRIVENBYADISPERSIVEPROCESS,ISOFTENMUCHSLOWERINTHISPAPER,WEEXPERIMENTALLYINVESTIGATEANEWTUMBLINGMIXERTHATROTATESWITHRESPECTTOTWOAXESAHORIZONTALAXISTUMBLINGMOTION,ANDACENTRALSYMMETRYAXISSPINNINGMOTIONWEEXAMINETHEEFFECTSOFFILLLEVEL,MIXINGTIME,LOADINGPATTERNANDAXISOFROTATIONONTHEMIXINGPERFORMANCEOFAFREEFLOWINGMATRIXOFFASTFLOLACTOSEANDAVICEL102,CONTAININGAMODERATELYCOHESIVEAPI,MICRONIZEDACETAMINOPHENWEUSEEXTENSIVESAMPLINGTOCHARACTERIZEMIXINGBYTRACKINGTHEEVOLUTIONOFACETAMINOPHENHOMOGENEITYUSINGANEARINFRAREDSPECTROSCOPYDETECTIONMETHODAFTERMATERIALSANDMETHODSAREDESCRIBEDINSECTION2,RESULTSAREPRESENTEDINSECTION3,FOLLOWEDBYCONCLUSIONSANDRECOMMENDATIONS,WHICHAREPRESENTEDINSECTION442MATERIALSANDMETHODSTHEMATERIALSUSEDINTHESTUDYARELISTEDINTABLE1,ALONGWITHTHEIRSIZEANDMORPHOLOGYACETAMINOPHENISBLENDEDWITHCOMMONLYUSEDEXCIPIENTSANDISUSEDASATRACERTOEVALUATETHEDEGREEOFHOMOGENEITYACHIEVEDASAFUNCTIONOFNUMBEROFREVOLUTIONSACETAMINOPHENISONEOFTHEDRUGSMOSTWIDELYUSEDINMIXINGSTUDIES,ANDAVICELANDLACTOSEARECOMMONLYUSEDPHARMACEUTICALEXCIPIENTSINTHEINTERESTOFBREVITYTHEIRSEMIMAGESARENOTINCLUDEDINTHISPAPER,BUTCANBEFOUNDIN“HANDBOOKOFPHARMACEUTICALEXCIPIENTS”21NEARINFRAREDSPECTROSCOPYACETAMINOPHENHOMOGENEITYWASQUANTIFIEDUSINGNEARINFRAREDSPECTROSCOPYACALIBRATIONCURVEWASCONSTRUCTEDFORAPOWDERMIXTURECONTAININGINAVERAGE35AVICELPH102,62LACTOSEAND3ACETAMINOPHENNEARINFRAREDNIRSPECTROSCOPYCANBEAUSEFULTOOLTOCHARACTERIZEACETAMINOPHENSAMPLESAREPREPAREDBYKEEPINGTHERATIOOFAVICELTOLACTOSERANDOMIZEDINORDERTOMINIMIZEEFFECTSOFIMPERFECTBLENDINGOFEXCIPIENTSDURINGTHEACTUALEXPERIMENTSONTHEACCURACYOFTHERESULTSTHERAPIDCONTENTANALYZERINSTRUMENTMANUFACTUREDBYFOSSNIRSYSTEMSSILVERSPRING,MDANDVISIONSOFTWAREVERSION21ISUSEDFORTHEANALYSISTHESAMPLESAREPREPAREDBYWEIGHING1GOFMIXTUREINTOSEPARATEOPTICALSCINTILLATIONVIALSKIMBLEGLASSINCVINELAND,NJUSINGABALANCEWITHANACCURACYOF001MGNEARIRSPECTRAARECOLLECTEDBYSCANNINGINTHERANGE11162482NMINTHEREFLECTANCEMODEPARTIALLEASTSQUAREPLSREGRESSIONISUSEDINCALIBRATIONMODELDEVELOPMENTUSINGTHESECONDDERIVATIVEMATHEMATICALPRETREATMENTTOMINIMIZETHEPARTICLESIZEEFFECTSASSHOWNINFIG1,EXCELLENTAGREEMENTISACHIEVEDBETWEENTHECALIBRATEDANDPREDICTEDVALUES5FIG1FIG1NEARINFRAREDNIRSPECTROSCOPYVALIDATIONCURVETHEEQUATIONUSEDTOPREDICTACETAMINOPHENCONCENTRATIONISVALIDATEDBYTESTINGSAMPLESWITHKNOWNAMOUNTSOFACETAMINOPHENCONCENTRATIONTHEYAXISREPRESENTSTHECONCENTRATIONCALCULATEDFROMTHEEQUATIONANDTHEXAXISREPRESENTSTHEACTUALCONCENTRATIONTHUSAPERFECTLYSTRAIGHTLINEAT45WOULDREPRESENTTHEBESTCALIBRATIONMODELEACHPOINTONTHEGRAPHREPRESENTSASINGLESAMPLETHECONCENTRATIONOFACETAMINOPHENEXAMINEDHERERANGESFROM0TO822BINBLENDERSUSEDINTHISSTUDYUNIAXIALBLENDERBLENDER1,BIAXIALBLENDERBLENDER2DUETOITSWIDESPREADUSE,ACYLINDRICALBLENDER1WITHACAPACITYOF30LISCHOSENASAREFERENCEBLENDERINTHESTUDYASSHOWNINFIG2,THISBLENDERHASACIRCULARCROSSSECTIONANDTAPERSATTHEBOTTOMITCANBEUSEDWITHORWITHOUTBAFFLES,WHICHAREMOUNTEDONAREMOVABLELIDINTHISSTUDYALLTHEEXPERIMENTSARECONDUCTEDWITHOUTTHEUSEOFBAFFLESMIXINGPERFORMANCEINTHISDEVICEISUSEDTOPROVIDEABASELINEFOREVALUATINGTHEMIXINGPERFORMANCEOFANEWLYDEVELOPEDBLENDER2WITHACAPACITYOF40L,WHICHISALSOCYLINDRICAL,INORDERTODETERMINETHEEFFECTOFDUALAXISOFROTATIONONMIXINGPERFORMANCETHEBLENDERSHOWNINFIG2BHASTWOAXISOFROTATIONTHESPINNINGRATEOFPRECESSIONRELATIVETOTHECENTRALAXISOFSYMMETRYISGEAREDTOBEHALFOFTHATOFTHERATEOFROTATIONAROUNDTHEHORIZONTALAXIS6FIG2FIG2PICTORIALREPRESENTATIONOFABINBLENDER1ANDBBINBLENDER2SHOWINGTHECORRESPONDINGAXISOFROTATION23EXPERIMENTALMETHODTWOTYPESOFINITIALPOWDERLOADINGUSEDINTHEEXPERIMENTSTOPBOTTOMLOADINGANDSIDELOADING,WHICHARESCHEMATICALLYREPRESENTEDINFIG3TOAVOIDAGGLOMERATION,THEAPI,ACETAMINOPHEN,WASDELUMPEDPRIORTOLOADINGITINTOTHEBLENDERBYPASSINGITTHROUGHA35MESHSCREENINORDERTOCHARACTERIZEMIXINGPERFORMANCE,AGROOVESAMPLERWASUSEDTOEXTRACTSAMPLESFROMTHEBLENDERSAT75,15,30,60,120REVOLUTIONSTHETHIEFWASCAREFULLYINSERTEDINTHEBIN,ANDACOREWASEXTRACTEDATEACHPOINTOFINSERTIONEACH“STAB”MINIMIZINGPERTURBATIONTOTHEPOWDERBEDREMAININGINTHEBLENDERAPPROXIMATELY7SAMPLESARETAKENFROMEACHTHIEFSTAB,ANDATOTALOFFIVESTABSAREUSEDATEACHSAMPLINGTIME,ASSHOWNINFIG4SOATOTALOF35SAMPLESARETAKENATEACHSAMPLINGPOINTFIG3FIG3SCHEMATICOFTHELOADINGPATTERNUSEDINTHESTUDYINTOPBOTTOMLOADING,AVICELISLOADEDFIRSTINTOTHEBLENDERFOLLOWEDBYLACTOSEONTOPOFITANDFINALLYACETAMINOPHENISUNIFORMLYSIEVEDOVERINSIDESIDELOADINGAVICELISPLACEDATTHEBOTTOMANDTHENACETAMINOPHENISONLYSIEVEDONLYINHALFPARTOFTHEBLENDERANDISSANDWICHEDBETWEENLACTOSEANDAVICELFIG4FIG4ATHIEFSAMPLERBTOPVIEWOFTHESAMPLINGPOSITIONSCHEME7THEEXPERIMENTALPLANUSEDINTHISSTUDYISASFOLLOWSFILLLEVELBLENDER160FILLLEVELBLENDER260,70,80LOADINGPATTERNBLENDER1SIDESIDELOADING,TOPBOTTOMLOADINGLOADINGPATTERNBLENDER2SIDESIDELOADING,TOPBOTTOMLOADINGSPEEDBLENDER115RPM,20RPM,25RPMSPEEDBLENDER2ROTATIONAL/SPINNING15/75RPM,20/10RPM,30/15RPMSAMPLINGTIMEBLENDER1,BLENDER275,15,30,60,120REVOLUTIONS3RESULTSTHEHOMOGENEITYINDEXUSEDISTHERSD,WHERECISTHECONCENTRATIONOFEACHINDIVIDUALSAMPLE,C_ISTHEAVERAGECONCENTRATIONOFALLSAMPLESANDNISTHETOTALNUMBEROFSAMPLESOBTAINEDATAGIVENSAMPLINGTIMEWEEXAMINETHEEFFECTOFFILLLEVELONMIXINGPERFORMANCEPREVIOUSLYTHEREHAVEBEENSTUDIESONTHEEFFECTOFFILLLEVELINTHEBOHLEBINBLENDER,GALLAYBINBLENDERANDVBLENDERANDDOUBLECONEBLENDER11,12AND13ALLTHEAFOREMENTIONEDBLENDERSHAVEONLYONEAXISOFROTATION,THEREFORETHEOBJECTIVEOFTHISSTUDYISTOEXAMINEHOWDUALAXISIMPACTMIXINGPERFORMANCESATHIGHFILLLEVELSTOAVOIDREPETITION,STUDIESFORFILLLEVELARENOTCONDUCTEDFORBINBLENDER1RESULTSAVAILABLEFROMAPREVIOUSSTUDYUSINGMGSTASATRACERSHOWEDTHATMIXINGINAUNIAXIALBLENDERSLOWEDDOWNQUITEDRAMATICALLYASTHEFILLLEVELEXCEEDED70MOREOVER,RESULTSFORACETAMINOPHENCANBEASSUMEDTOBESIMILARTOTHOSEOBTAINEDINPREVIOUSWORKBYMUZZIOETAL11AND13,FORASINGLEAXISRECTANGULARBINBLENDER11,WHICHHAVE8SHOWNTHATEVENAFTERFEWHUNDREDREVOLUTIONSHOMOGENEITYACHIEVEDWITHA80FILLLEVELISVERYPOORASCOMPAREDTO60FILLLEVELTOEXAMINETHEEFFECTOFFILLLEVELINADUALAXISBLENDER,EXPERIMENTSWEREPERFORMEDINBLENDER2WITHTHETOPBOTTOMLOADINGPATTERNFORAROTATIONALSPEEDOF15RPMANDWITHSPINNINGSPEEDOF75RPMTHEFILLLEVELSEXAMINEDARE60,70AND80RESPECTIVELYANDSAMPLESARETAKENAFTER75,15,30,60,120REVOLUTIONSTYPICALRESULTSARESHOWNINFIG5,WHICHSHOWSTHERSDVSNUMBEROFBLENDERREVOLUTIONSASEXPECTEDFORNONAGGLOMERATINGMATERIALS,THECURVESSHOWARAPIDLYDECAYINGREGIONTHESLOPEOFTHECURVESINTHISREGION,INSEMILOGARITHMICCOORDINATES,ISUSEDTODEFINETHEMIXINGRATETHECURVESTHENLEVELOFFTOAPLATEAUTHATINDICATESTHEMAXIMUMDEGREEOFHOMOGENEITYTHATISACHIEVABLEINTHEBLENDERFORAGIVEMATERIALFIG5FIG5MIXINGCURVESFORDIFFERENTFILLLEVELSINBLENDER2THERSDOFACETAMINOPHENISPLOTTEDASAFUNCTIONOFNUMBEROFREVOLUTIONSTHELOADINGPATTERNINTOPBOTTOMANDTHEBLENDERROTATIONALSPEEDIS15RPMWITHSPINNINGSPEEDOF75RPMSIMILARTOPREVIOUSSTUDIESWITHOTHERTUMBLINGBLENDERSWEOBSERVETHATBLENDINGPERFORMANCEISADVERSELYAFFECTEDBYINCREASINGFILLLEVELSASSHOWNINFIG5,THECURVEFOR80FILLPERFORMSMOREPOORLYTHANTHOSEFOR60AND70FILLASFILLLEVELINCREASES,RSDCURVESDECAYMORESLOWLY,SIGNIFYINGASLOWERMIXINGPROCESSHOWEVER,THEEFFECTISNOTASPRONOUNCEDASINOTHERBINBLENDERSANDAFTERABOUTONLY100REVOLUTIONS,THESAMEPLATEAUTHESAMEASYMPTOTICBLENDHOMOGENEITYISACHIEVEDFORALLTHREEFILLLEVELSNEXT,THEEFFECTOFROTATIONALSPEEDISINVESTIGATEDINTHEBLENDER19WITHONEAXISOFROTATIONANDISCOMPAREDTOTHEBLENDER2WITHDUALROTATIONAXISEXPERIMENTSWERECONDUCTEDFORBOTHBLENDERSWITHTOPBOTTOMANDSIDESIDELOADINGEXPERIMENTSWEREPERFORMEDAT60FILLLEVELANDTHEROTATIONSPEEDSCONSIDEREDFORBLENDER1ARE15RPM,20RPMAND25RPMRESPECTIVELYASSHOWNINFIG6ANDFIG7,WHENPLOTTEDASAFUNCTIONOFBLENDERREVOLUTIONS,THEREISNOTMUCHOFANEFFECTOFROTATIONSPEEDONTHEHOMOGENEITYINDEXRSDOFACETAMINOPHENAT60FILLLEVELITISOBSERVEDTHATMIXINGPERFORMANCEAT20RPMAND25RPMISSLIGHTLYBETTERTHANAT15RPM,HOWEVERTHEDIFFERENCESINTHEPERFORMANCEOFTHEBLENDERUNDERDIFFERENTSPEEDSAREPROBABLYTOOSMALLTOBESIGNIFICANTRSDCURVESDECAYWITHTHESAMESLOPE,INDICATINGSIMILARMIXINGRATESINTHESTUDYREPORTEDHERE,THEFILLLEVELISONLY60,ANDALLTHEROTATIONALSPEEDSAREENOUGHTOACHIEVEHOMOGENIZATIONTHEAFOREMENTIONEDSTUDIESWERECONDUCTEDAT85FILLLEVELFORSUCHAHIGHFILLLEVEL,ATLOWSPEEDS,ASTAGNANTCOREISKNOWNTOOCCURATTHECENTEROFMANYBLENDERS,REQUIRINGHIGHERSHEARSTRESSPERUNITVOLUMETOACHIEVEHOMOGENIZATIONMOREOVER,THEFLOWPROPERTIESOFMGSTAREKNOWNTOBESTRONGLYDIFFERENTTHANTHOSEOFMOSTMATERIALS,ANDAREKNOWNTOHAVEADEEPIMPACTONTHEFLOWPROPERTIESOFTHEMIXTUREASAWHOLEFURTHERMORE,MGSTISFAMOUSLYKNOWNTOBEASHEARSENSITIVEMATERIALTHUSANEXPECTATIONTHATLUBRICATEDANDUNLUBRICATEDBLENDSWOULDSHOWSIMILARBEHAVIORWITHRESPECTTOSHEARISPROBABLYUNWARRANTEDFIG6FIG6MIXINGCURVESFORTOPBOTTOMLOADINGEXPERIMENTSWITH60FILLLEVELRSDISPLOTTEDASAFUNCTIONOFNUMBEROFREVOLUTIONSDOTTEDLINESCORRESPONDTOEXPERIMENTSINTHEBLENDER1,WHILESOLIDLINESREPRESENTDATAPOINTSFROMTHEBLENDER210FIG7FIG7CURVESFORSIDESIDELOADINGEXPERIMENTSWITH60FILLLEVELRSDISPLOTTEDASAFUNCTIONOFNUMBEROFREVOLUTIONSDOTTEDLINESCORRESPONDTOEXPERIMENTSINTHEWHILESOLIDLINESREPRESENTDATAPOINTSFROMTHE2SUBSEQUENTLY,EXPERIMENTSWEREPERFORMEDUSINGTHEBLENDER2ATTHREEROTATIONSPEEDS15RPM,20RPMAND30RPM,ANDASEXPLAINEDBEFORE,THECORRESPONDINGSPINNINGSPEEDSWERE75RPM,10RPMAND15RPMFILLLEVELCONSIDEREDFORBOTHSIDESIDEANDTOPBOTTOMLOADINGWAS60AGAIN,ITWASOBSERVEDTHATVARYINGROTATIONANDSPINNINGSPEEDSDIDNOTMAKEMUCHDIFFERENCEINMIXINGRATEASSHOWNINFIG6ANDFIG7,MIXINGCURVESFORBLENDER2VARYONLYSLIGHTLYWITHROTATIONSPEEDFORTHETOPBOTTOMLOADINGPATTERNITAPPEARSTHATMIXINGIMPROVESSLIGHTLYWHENROTATIONSPEEDISINCREASEDTHEPLATEAUISSLIGHTLYLOWERFORHIGHERROTATIONSPEEDS,INDICATINGANIMPROVEMENTINTHELEVELSOFASYMPTOTICHOMOGENEITY,BUTNOSIGNIFICANTCHANGESWITHSPEEDAREOBSERVEDINSIDESIDELOADINGPATTERNTHEBLENDINGPERFORMANCEOFBOTHBLENDERSISCOMPAREDATDIFFERENTROTATIONSPEEDSFORBOTHSIDESIDEANDTOPBOTTOMLOADINGPATTERNSTOMAKEAFAIRCOMPARISON,THEFILLLEVELWASKEPTAS60FORBOTHBLENDERS,ACONDITIONFORWHICHBOTHBLENDERSACHIEVEEFFECTIVEMIXINGATLONGENOUGHTIMESDUETOGEOMETRICSIMILARITYOFTHETWOBLENDERS,THISCOMPARISONHELPEVALUATETHEEFFECTOFSPINROTATIONWITHRESPECTTOTHECENTRALSYMMETRYAXISONMIXINGPERFORMANCEASSHOWNINFIG6,THEMIXINGCURVESFORTHEBLENDER2LIEBELOWTHOSEFORTHEBLENDER1FOREACHROTATIONRATE,INDICATINGFASTERMIXINGNOTETHATTHEFINALRSDASYMPTOTE11REACHEDFORBOTHBLENDERSISALSODIFFERENT,WITHTHEBLENDER2SHOWINGALOWERASYMPTOTEBETTERFINALMIXEDSTATE,PRESUMABLYDUETOALESSEREFFECTOFTHESLOWMIXINGMODEINTHEHORIZONTALDIRECTIONTHANBLENDER1SIMILARRESULTSWEREOBTAINEDFORTHESIDESIDELOADINGPATTERN,ASDISPLAYEDINFIG7THERSDCURVESFORTHEBLENDER1FORALLTHETHREEROTATIONRATESLIEABOVETHEBLENDER2ITISTHEREFORECONFIRMEDTHATSPINNINGABLENDERINDIRECTIONPERPENDICULARTOTHEROTATIONAXISHELPSINENHANCINGMIXTUREHOMOGENEITYHOWEVER,FORTHEMATERIALSEXAMINEDHERE,THEROTATIONRATEDOESNOTHAVEMUCHEFFECTONMIXINGPERFORMANCEFINALLY,ACOMPARISONISMADEBETWEENTHETWOLOADINGPATTERNSFORBOTHBLENDERSAGAIN,TOACHIEVEAFAIRCOMPARISON,ALLEXPERIMENTSAREPERFORMEDAT15RPMAND60FILLLEVELASEVIDENTINFIG8,INBOTHBLENDERSTOPBOTTOMLOADINGGIVESAMORERAPIDDECAYOFTHERSD,INDICATINGFASTERHOMOGENIZATIONASCOMPAREDTOSIDESIDELOADINGPATTERNHOWEVER,FORBOTHLOADINGMODES,BLENDER2ACHIEVESFASTERHOMOGENIZATIONFIG8FIG8COMPARISONBETWEENTHEMIXINGCURVESOFTHEBLENDER2ANDTHEBLENDER1FORTOPBOTTOMANDSIDESIDELOADINGPATTERNDOTTEDLINESCORRESPONDTOEXPERIMENTSINTHEBLENDER1,WHILESOLIDLINESREPRESENTDATAPOINTSFROMTHEBLENDER2EXPERIMENTSAREPERFORMEDAT15RPMWITH60FILLLEVELASREPORTEDINPREVIOUSSTUDIES,ALLTHERSDCURVESINTHISPAPEREXHIBITACOMMONTRENDWITHRESPECTTOTIME,CHARACTERIZEDBYANINITIALPERIODOFRAPIDHOMOGENIZATIONDUETOCONVECTIVEMIXING,FOLLOWEDBYAPERIODOFMUCHSLOWERHOMOGENIZATIONTYPICALLYCONTROLLEDBYDISPERSIONORSHEARTHISTRENDISSHOWNSCHEMATICALLYINFIG9THEFIRSTREGIMEISAFASTEXPONENTIALDECAYANDTHESECONDONE12ISASLOWEXPONENTIALASYMPTOTETOALIMITINGPLATEAUTHEFIRSTPARTREPRESENTSARAPIDREDUCTIONINHETEROGENEITYDRIVENBYTHEBULKFLOWCONVECTIONTHESLOPEOFTHERSDCURVE,INSEMILOGARITHMICCOORDINATES,ISTHECONVECTIVEMIXINGRATETHESECONDPARTISDRIVENBYINDIVIDUALPARTICLEMOTIONDISPERSIONORBYTHESLOWEROSIONOFAPIAGGLOMERATESDUETOSHEARFIG9FIG9ATYPICALMIXINGPLOT,WITHRSDPLOTTEDAGAINSTNUMBEROFREVOLUTIONSTHETWOSOLIDLINESEMPHASIZEONTHETWODISTINCTIVEMIXINGREGIMESWHENONLYONEMIXINGMECHANISMISPRESENTASITUATIONTHATCANBEACHIEVEDBYCAREFULCONTROLOFTHEINITIALLOADINGPATTERN,ASIMPLEMASSTRANSFERMODEL,REPRESENTEDINEQ1CANBEUSED,ASINPASTSTUDIES14,TOCAPTURETHEEVOLUTIONOFTHERSDINPOWDERSYSTEMSINTHISMODEL,ANEXPONENTIALCURVEDECAYINGTOWARDSAPLATEAUISFITTEDTOTHEMIXINGCURVES,WHEREISTHESTANDARDDEVIATION,THEFINALSTANDARDDEVIATION,AISANINTEGRATIONCONSTANT,SIGNIFIESTHEMIXINGRATECONSTANT,ANDNISTHENUMBEROFREVOLUTIONSTHISMODELPREDICTSTHATTHEEXPERIMENTALVARIANCEWILLDECAYEXPONENTIALLYWITHTIMEASITAPPROACHESTHERANDOMMIXTURESTATEINORDERTOCHARACTERIZENUMERICALLYTHE“MIXINGRATE,”HASTOBECOMPUTEDFOREACHBLENDINGEXPERIMENTAENTHEVALUESFORPARAMETERSAANDARECALCULATEDBYMINIMIZINGTHESUMOFSQUARESOFERRORSBETWEENTHEDATAANDANEXPONENTIALFUNCTION13THEVALUEOFFINALSTANDARDDEVIATIONISTAKENASTHELOWESTVALUEOFTHEVARIANCEACHIEVEDINTHEMIXINGSTUDIESTHEVALUESFORARECOMPUTEDFORBLENDINGEXPERIMENTSWITHDIFFERENTPERCENTAGEFILL,ANDLOADINGPATTERNANDTHERESULTSAREPLOTTEDINFIG10ANDFIG11ASSHOWNINFIG10,THEMIXINGRATECONSTANTDECREASESWITHINCREASEINPERCENTAGEFILLLEVELABROADERCOMPARISONWITHTWOOTHERBINBLENDERSISPROVIDEDINFIG11,WHICHDISPLAYSTHEMIXINGRATEFORTHEBLENDER2,FORTHEBLENDER1WITHANDWITHOUTBAFFLES,ANDFORACOMMERCIALLYAVAILABLERECTANGULARBLENDERTHEFIGUREALSOILLUSTRATESTHEEFFECTOFLOADINGPATTERNONTHESEFOURBINBLENDERS,ALLOFTHEMROTATEDAT20RPMITISEVIDENTTHATBLENDER2WITHDUALAXISOFROTATIONHASTHEHIGHESTMIXINGRATECONSTANTOFTHEENTIREGROUPFORALLBLENDERSUSEDINTHISSTUDY,THEREISALSOANEFFECTOFLOADINGPATTERNONMIXINGITWASFOUNDTHATTOPBOTTOMLOADINGPATTERNGIVESBETTERMIXINGPERFORMANCETHANSIDESIDELOADINGFIG10FIG10MIXINGPERFORMANCEWASEVALUATEDATTHREEDIFFERENTFILLLEVELSFORBLENDER2EXPERIMENTSWEREPERFORMEDAT60,70AND80FILLLEVELSAT15RPMWITHTOPBOTTOMLOADINGMIXINGRATECONSTANTVALUESISPLOTTEDASAFUNCTIONOFFILLLEVELANDFOUNDTOINCREASEWITHDECREASEINFILLLEVELFIG1114FIG11MIXINGPERFORMANCEOFBINBLENDERSALONGWITHLOADINGPATTERNARECOMPAREDAT20RPMWITH60FILLLEVELMIXINGRATECONSTANTVALUESPLOTTEDFORDIFFERENTLOADINGPATTERNSINBINBLENDERSWITHANDWITHOUTBAFFLEANDASSHOWNABOVE,BLENDER2GIVERSABETTERMIXINGPERFORMANCEASCOMPAREDTOBLENDER1THEREISALSOAPRONOUNCEDEFFECTOFLOADINGPATTERN,ANDREGARDLESSOFTHEBLENDERUSED,TOPBOTTOMLOADINGALWAYSGIVESABETTERPERFORMANCECOMPAREDTOSIDESIDE4CONCLUSIONTHEEFFECTSOFFILLLEVEL,MIXINGTIME,LOADINGPATTERNANDAXISOFROTATIONONTHEMIXINGPERFORMANCEOFAFREEFLOWINGMA
温馨提示:
1: 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。图纸软件为CAD,CAXA,PROE,UG,SolidWorks等.压缩文件请下载最新的WinRAR软件解压。
2: 本站的文档不包含任何第三方提供的附件图纸等,如果需要附件,请联系上传者。文件的所有权益归上传用户所有。
3.本站RAR压缩包中若带图纸,网页内容里面会有图纸预览,若没有图纸预览就没有图纸。
4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
5. 人人文库网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对用户上传分享的文档内容本身不做任何修改或编辑,并不能对任何下载内容负责。
6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。
提示  人人文库网所有资源均是用户自行上传分享,仅供网友学习交流,未经上传用户书面授权,请勿作他用。
关于本文
本文标题:jzc350混凝土搅拌机总体设计及搅拌系统优化设计【全套含有CAD图纸三维建模】
链接地址:https://www.renrendoc.com/p-10053353.html

官方联系方式

网站客服网站客服      侵权投诉侵权投诉
1:下载资料失败解决办法   
2:不支持迅雷下载,请使用浏览器下载   
3:不支持QQ浏览器下载,请用其他浏览器   
4:下载后的文档和图纸-无水印   
5:文档经过压缩,下载后原文更清晰   
点击下载此资源
关于我们 - 网站声明 - 网站地图 - 资源地图 - 友情链接 - 网站客服 - 联系我们

网站客服QQ:2881952447     

copyright@ 2020-2025  renrendoc.com 人人文库版权所有   联系电话:400-852-1180

备案号:蜀ICP备2022000484号-2       经营许可证: 川B2-20220663       公网安备川公网安备: 51019002004831号

本站为文档C2C交易模式,即用户上传的文档直接被用户下载,本站只是中间服务平台,本站所有文档下载所得的收益归上传人(含作者)所有。人人文库网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。若文档所含内容侵犯了您的版权或隐私,请立即通知人人文库网,我们立即给予删除!