文献翻译颚式破碎机在花岗岩采掘中受岩石强度性能的影响.docx
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文献翻译颚式破碎机在花岗岩采掘中受岩石强度性能的影响.docx
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文献翻译颚式破碎机在花岗岩采掘中受岩石强度性能的影响
Influenceofsomerockstrengthpropertiesonjawcrusherperformanceingranitequarry
Abstract:
TheinfluenceofrockstrengthpropertiesonJawCrusherperformancewascarriedouttodeterminetheeffectofrockstrengthoncrushingtimeandgrainsizedistributionoftherocks.Investigationwasconductedonfourdifferentrocksamplesnamelymarble.dolomite.1imestoneandgranitewhichwererepresentativelyselectedfromfragmentedlumpsinquarries.UnconfinedcompressivestrengthandPointloadtestswerecarriedoutoneachrocksampleaswellascrushingtimeandsizeanalysis.Theresultsofthestrengthparametersofeachsamplewerecorrelatedwiththecrushingtimeandthegrainsizedistributionoftherocktypes。
Theresultsofthestrengthtestsshowthatgranitehasthehighestmeanvalueof101.67MPaforUnconfinedCompressiveStrength(UCS)test.6.43MPaforPointLoadtestwhiledolomitehastheleastmeanvalueof30.56MPaforUCStestand0.95MPaforPointLoadtest。
AccordingtotheInternationalSocietyforRockMechanicOSRM)standard.thegraniterocksamplemaybeclassifiedashavingveryhighstrengthanddolomiterocksample,lowstrength.Also,thegraniterockhasthehighestcrushingtime(21.Os)anddolomiterockhastheleastvalue(5.0s).Basedontheresultsoftheinvestigation,itwasfoundoutthatthereisagreatinfluenceofstrengthpropertiesoncrushingtimeofrocktypes.
1Introduction
Thestrengthofamaterialreferstothematerialsabilitytoresistanappliedforce.Strengthpropertyofrockistheabilityoftherockmaterialtoresistfailurewhenloadisappliedwithoutyieldingorfracture.Themechanicalpropertiesofrockdependupontheinteractionbetweenthecrystals,particlesandcementationmaterialofwhichitiscomposed.Theyieldstrengthofamaterialisanadequateindicatorofthematerial’smechanicalstrengthandistheparameterthatpredictsplasticdeformationinthematerial.fromwhichonecanmakeinformeddecisionsonhowtoincreasethestrengthofamaterialdependingonitsmicro-structuralpropertiesandthedesiredendeffect.Strengthisconsideredintermsofcompressivestrength,tensilestrength,andshearstrength,namelythelimitstatesofcompressivestress,tensilestressandshearstress,respectively.AccordingtoReference,theeffectofdynamicloadingisprobablythemostimportantpracticalpartofthestrengthofmaterials,especiallytheproblemoffatigue.Repeatedloadingofteninitiatesbrittlecracks,whichgrowslowlyuntilfailureoccurs.Itisofparamountimportancetofirstcarryoutsizereductionofanoreorrockmaterialonalaboratoryscalefortheoreorrockmaterialtobeprofitablyandeconomicallyprocessedindustrially.Thispermitsthedeterminationofparameterssuchasliberationsize,grindability,coarsetomediumtofineproportioninanyproductofthecrushingandgrindingequipmentandtheproportionofvaluesofganguesinthefines.JawCrusherisusedforcrushingrockmaterialinminesandquarries。
Itprovidesthelatesttechnologyinheavydutycrusherdesignthatdelivershighproduction,infinitesettingadjustment,largerfeedopeningboltedmainframe,castswing,jawholderandoptionalpositioningofthecrushersupportfeettosuitinstallationrequirement.Thiscrusherisdesignedforexceptionalheavyandcontinuousapplicationwithheavydutypartforoptimumoperationandlonglifeandthiscanbeinfluencedbythestrengthpropertiesoftherock.Theinfluenceofrockstrengthpropertycanresulttothelossofcapacitytoperformthestipulatedfunctionforwhichjawcrusherwasdesigned.TheUCSwasthemainquantitativemethodforcharacterizingthestrengthofrockmaterials.Pointloadtestisusedtodeterminerockstrengthindexesingeotechnicalpractice.Rocklithologieswereclassifiedintogeneralcategoriesandconversionfactorsweredeterminedforeachcategory.ThisallowsforintactrockstrengthdatatobemadeavailablethroughpointloadtestingfornumericalgeotechnicalanalysisandempiricalrockmassclassificationsystemssuchastheCoalMineRoofRating(CMRR).
Crushingisanintegralportionformineralprocessingoperationsandiscriticalforthepreparationoforefordownstreamprocessformineralprocessingoperations.Crushingofquarriedrockiscarriedoutinstages,withtheprimarycrushingstagetypicallycarriedoutusingjawcrusherandsubsequent(secondaryandtertiary).Fromfieldobservation,thegreaterthenumberofcrushingstage,thehighertheamountoffineproducedasaproportionoftotalplantthroughout.Thetypeofcrusherusedalsodirectlycontrolstheamountoffinesproduced.Arecentstudyofquarryfineslookedatpossiblerelationshipbetweenquarryplantoperationandthegenerationofquarryfines.Theconclusiondrawnhavebeencriticallyrevealedthathardrockaggregateplantproductionisdirectlyproportionaltothenumberofcrushingstages;itincreaseswithanincreaseinproductionstage.Lowreductionfinesgenerationateachstageespeciallywheretherockormineralarefragile,however,thecumulativefinesproductionmaybehigherthanaprocessusingfewerstageswithhigherreduction.
Thepaniclesizeanalysisisthemethodusedtodeterminetheparticlesizedistributionorthegrainsizedistributionofrock/orematerials.Inpractice,closesizecontroloffeedtomineralprocessingequipmentisrequiredinordertoreducethesizeeffectandmaketherelativemotionoftheparticlesseparationdependent.Theparticlesizedistributionofamatedalisimportantinunderstandingitsphysicalandchemicalpropenies.Itaffectsthestrengthandloadbearingpropertiesofrocks.Theeasiestconventionalmethodofdeterminingmineralparticlesizeissieveanalysis,wheregrainsizeisseparatedonsieveofdifferentsizes/aperturesusingSieveShaker.Thustheparticlesizedistributionisdefinedintemsofdiscretesizerangesandmeasuredinmicron.Itisusuallydeterminedoveralistofsizerangesthatcoversnearlyallthesizespresentinthesample.Somemethodsofdeterminationallowmuchnarrowersizerangestobedefinedthatcanbeobtainedbyuseofsievesandareapplicabletopaniclesizesoutsidetherangeavailableinsieves.However,theideaofnotional‘sieve’that‘retains’particlesaboveacertainsizeand‘passes’paniclesbelowthatsizeisuniversallyusedinpresentingpaniclesizedistributiondataofallkinds.Thesizedistributionmaybeexpressedasa‘range’analysis,inwhichtheamountineachsizerangeislistedinorderoffinenessofparticles.Itmayalsobepresentedin‘cumulativeform’inwhichthetotalofallsizes‘retained’or‘passed’byasinglenotional‘sieve’isgivenforarangeofsizes.Rangeanalysisissuitablewhenaparticularidealmid—rangepaniclesizeisbeingsoughtwhilecumulativeanalysisisusedwheretheanlountof‘under-size’or‘over-size’mustbecontrolled.
2Materialsandmethod
TherocksamplesusedfortheinvestigationwereobtainedfromdifferentquarriesinNigeria.Dolomite,limestoneandmarblesampleswerecollectedfromEdoStateandgraniterocksamplesfromOndoState。
Nigeria.Fivebouldersofeachrocktypeofdimension90cm×50cm×50cmwererepresentativelyselectedfromrecentlyblastedportionoftherockswhichwerefteefromnaturaldefects,thatis,discontinuitiessuchascracks,joints,fracturesetcwerepackedproperlytoavoiddamageduringtransportation.Fortheunconfinedcompressivestrengthtest,therocksamplewascutintosquareshapewithdimensionof60mm×60mmwithmasonrysawandVerniercaliperwasusedtomeasurethedimension.Also.forthepointloadtest,therocksampleswerebrokenintoirregularshapewithsledgehammer.Verniercaliperwasusedtomeasurethediameterandlengthofirregularshapedrocksamplesfromthedifferentlocations.Themeanvalueforlengthaddiameterwasdetemined。
TherocksampleswerepreparedandtestedinthelaboratorytoIntemationalSocietyforRockMechanicsStandardforeachstrengthtestcarriedoutusingMasonrySawMachineandCompressionTestingMachineandPointLoadTesterrespectively.Thereadingsweretakenandrecorded.ThesizereductionofequalweighedoftherocksampleswasdoneusingLaboratoryJawcrusherandtheparticlesizedistributionwascarriedoutinnotionalsetofsievesusingSieveShaker.Thecrushingtimesweretakenandrecordedandtheweightsofsamplesretainedonthesievesrecordedforsizedistribution.Therocksamplewerecutintosquareshapebyusingmasonrycuttingmachine,thecutsamplesweresmooth,freeofabruptirregularitiesandstrength.Fivespecimenofeachoftherocksamplesweretestedandthefailureloadwasrecordedforeachtestasthefailurewasobservedaxlallyinthecompressivetestingmachine.
SomelumpsofthedifferentrocktypeswerethencrushedusingtheLaboratoryJawcrusherandtakenrecordofthecrushingtimes.ThescreeningofthecrushedrocksampleswascarriedoutinasetofsieveusingtheLaboratorySieveShaker.Thesievewasarrangedintheorderofdecreasingapenure:
4700,2000,1700,1180,850,600,425,and212byplacingthesievethathasthelargestopeningatthetopandtheleastopeningatthebottom.Atightfittingpanorreceiverwasplacedbelowthebottomsievetoreceivethefinestgrainedwhichisreferredtoasundersize.Thecrushedsamplewasplacedonthetopsieveandalidwasusedtocoverittopreventescapeoftherocksampleduringmeprocess.Thesetofthesievewasthenplacedinasieveshakerwhichvibratesthesieveforproperscreening.Thisoperationwascarriedoutoneachoftherocksampleforfiveminutes.Thiswasachievedbyusingtheautomaticcontroltimerofthesieveshaker.Afterthescreeninganalysis,theretainedsampleoneachsievewasmeasuredonweighbalanceandrecordedtoth
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- 文献 翻译 颚式破碎机 花岗岩 采掘 岩石 强度 性能 影响
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