lopedtofabricatetitaniummatrixcomposites.thetitaniummatrixcompositeswithhighmechanicalpropertiescanbeproducedsimplyandatlowfabricationcostundertheconditionthatproceingfactorycannotchangetheirequipmentandtechnique.moreover,itmustbepointedthatthemechanicalpropertiesofinsitusynthesizedtitaniummatrixcompositesfabricatedbythetechniquecanbedesignedandadjusted.thetitaniummatrixcompositeswithdifferentmatrixalloy,differentpercentofreinforcementsanddifferentmolesratiobetweenreinforcementscanbedesignedtomeetdifferentrequirement.thegrowthmechanismsofinsitusynthesizedreinforcementswereanalyzedbymeaofalloyphasediagram,crystalstructuresofreinforcementsandsolidificationtheory.theinterfacemicrostructuresarealsodiscued.theeffectsofmicrostructuresonmechanicalpropertiesoftitaniummatrixcompositesareinvestigated.thoseresultsmakebasisforfabricatingdiscontinuouslyreinforcedtitaniummatrixcompositeswithhighpropertiesandbroadeningthealicationareaofdiscontinuouslyreinforcedtitaniummatrixcomposites.theyalsoprovidepracticalwayforcommercialproductionoftitaniummatrixcompositeswithhighproperties.theseresearchfruitshaveattractedattentionofaviationandaeroacedepartment.the10thfivewarindu

strykeyproject,aeroacesuortfoundationprojectandaeroaceiovationfoundationprojecthavebeenaroved.theiovationtitaniummatrixcompositeswillbeutilizedinthefollowingwarsystem:advancedstrategicmiilexx-2revisedtype,tacticalmiilexx-19andnewgenerationicbm.duetostrategicsignificationofthetechnologyonwarindustryandpotentialutilizat

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