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2.Understandtheup-to-datemanufacturingprocessesofvariantcomposites,includingpolyercomposites,ceramiccompositesandmetalliccomposites;

3.Knowhowtotestthebasicpropertiesofcompositematerialsandrelatedevaluationmethods;

4.Knowtheresearchprogressandfrontiersonthestudyofcompositematerials.

Exceptforthestudyofprofessionalknowledge,thestudentsarealsoencouragedtotakepartinvariousself-learning,discussionsandpresentations,inordertobuilduptheirself-confidenceonacquiringknowledgeandinformationdirectlyfromEnglishreadingorideaexchanging.

Thebasicscope,rangeandqualityofteachinghavebeenstipulatedintheoutline,whichactsasaguidancefortheteachingandlearningofthecourse．Therequirementof“understand”or“know”hasbeenpointedoutinthe“LearningObjectives”sectionineverychapter.

TeachingContentsandRequirements

教学内容及要求

Outline

PARTIFUNDAMENTALSOFCOMPOSITEMATERIALS

Chapter1IntroductiontoCompositeMaterials

1.1Definitionofcomposites

1.2Compositionofcomposites

1.3Classificationofcomposites

1.4Nomenclature/Terminology

1.5Fabricstructures

1.6Examplesofcommerciallyusedcomposites

Chapter2Mechanicalpropertiesofcomposites

2.1Performanceofcompositematerials

2.2Loadtransferfrommatrixtofiber

2.3Mechanicalproperties

2.4Fracturemodeincomposites

Chapter3Polymercomposites

3.1Introductiontopolymercomposites

3.2Classification

3.3ConstituentsofFiber-ReinforcedComposites

3.4PolymerMatrixComposites

3.5IncorporationofFibersintoMatrix

Chapter4Ceramiccomposites

4.1Introduction

4.2PropertyofCMCs

4.3Thecategoryofceramicmatrixcomposites

4.4Fabricationprocessforceramiccomposites

4.5Machiningandjoining

Chapter5Metalliccomposites

5.1Introduction

5.2Fabricationofmetalliccomposites

5.3Theapplicationofmetallicmatrixcomposites

Chapter6Polymernanocomposites

6.1Introduction

6.2Preparationofnanocomposite

6.3Blending

6.4Sol-GelProcess

6.5InSituPolymerization

6.6ColloidalNanocomposites

6.7Incompatibilityofpolymersandminerals

6.8CharacterizationandProperties

6.9Applications

PARTIIPROGRESSONCOMPOSITEMATERIALS

Chapter7NaturalFiberComposites

7.1Progressandimportanceofplantfibersreinforcedpolymercomposites;

7.2Surfaceproblemoffibre–matrixadhesion;

7.3Approachesformanufacturingall-plantfibercomposites;

7.4Applications

7.5AresearchExample:

Sisalfiberbreakmaterials

7.6Conclusions

Chapter8Polymer/MMTComposites

8.1Introduction

8.2Compositionofpolymer/MMTnanocomposite

8.3Organicmodificationoflayeredsilicates

8.4Nanocompositestructuresandcharacterization

8.5Preparationofnanocomposites

8.6Nanocompositeproperties

8.7Nanocomposites:

advantagesandapplications

Chapter9Polymer/CNT（Carbonnanotube）Composites

9.1Introduction

9.2MechanicalPropertiesofNanotubes

9.3SystemRequirementsforMechanicalReinforcement

9.4PolymerCompositeProcessing

9.5MechanicalPropertiesofPolymer–NanotubeComposites

9.6ConclusionsandFutureOutlook

Chapter10FlameRetardantPolymerNanocomposites

10.1Theneedsoffireretardency

10.2Firestages

10.3Firehazards

10.4Evaluationoffireandfireretardantnanocomposites.

10.5Mechanismofthermaldegradation

10.6Charring,theformationofchar,theroleofchar

10.7Introductiontofireretardancy

10.8Modificationofpolymers

10.9Traditionalfireretardants

10.10Aresearchexample:

Introductiontoflameretardantclaynanocomposites

10.11Otherkindfireretardantnanocomposites

Chapter11MultifunctionalCeramicMatrixComposites

11.1Introduction

11.2MultifunctionalCeramic-Polymercomposites

11.3MultifunctionalCeramic-metalcomposites

11.4MultifunctionalCeramic-ceramiccomposites

11.5Conclusions

Chapter12PiezoelectricComposites

12.1Piezoelectricmaterialcharacteristic

12.2Piezoelectricmaterialtype

12.3Piezoelectriccomposite

12.4Fabricationofpiezoelectriccomposite

12.5Applications

Chapter13StructuralCeramicComposites

13.1Thegeneralintroductiontostructuralceramics

13.2Theprocessingofstructuralceramics.

13.3Silliconnitridecomposites:

Anexample

13.4Principlestotheceramiccomposites.

13.5Mechanismsforparticlesstrengthening.

13.6Moreexamplesofceramiccomposites.

教学内容与要求

PartI:

FundamentalsofCompositeMaterials

Chapter1Introductionofcomposites

Thebasicdefinition,classificationandcharacteristicsofcompositematerialsareintroducedinthischapter.

【LearningObjectives】

1.Knowthegeneraldefinitionandthepropertiesofcomposites

2.Knowtheclassificationofcompositematerial

3.Understandthecharacteristicsofcomposites

【TeachingContents】

Keypoints:

◆Theuseofdifferenttypesoffabricsandtheimportanceofthefabricdirection

◆Thedifferenttypesofmatrixphasesuponwhichcompositesarebased.

◆Thefunctionoftheprimaryandsecondaryphaseinacompositematerial.

◆Thedifferencebetweensimpleandadvancedcomposites

◆Theadvantagesanddisadvantagesofplasticsandcomposites

1.1.Definitionofcomposites

1.1.1Requirementsforcomposites

vtwoormorechemicallydistinctconstituents

vdistinctinterfaceseparatingconstituents（differentphases）

vsignificantpropertydifference（≧5times）amongconstituents

vsignificantvolumefraction（≧10%）

1.1.2Propertiesofcomposites

vConsistsoftwophasesandhavedifferentphases 

vKeeppropertydifferenceamongconstituents

vAvailabletobedesigh

1.1.3Costsofcompositemanufacture

vMaterialcosts--higherforcomposites

▪Constituentmaterials（e.g.,fibersandresin）

▪Processingcosts--embeddingfibersinmatrix

•notrequiredformetalsCarbonfibersorderofmagnitudehigherthanaluminum

vDesigncosts--lowerforcomposites

▪Canreducethenumberofpartsinacomplexassemblybydesigningthematerialincombinationwiththestructure

vIncreasedperformancemustjustifyhighermaterialcosts

1.2.CompositionofComposites

1.2.1MaterialsandCivilization

1.2.2CompositionofComposites

Compositematerialsystem

Ø

continuousphase（matrix）

discontinuousphases（reinforcements）

1.2.3TypesofCompositeMaterials

Therearefivebasictypesofcompositematerials:

Fiber,particle,flake,laminarorlayeredandfilledcomposites.

A.FiberComposites

1-Dgivesmaximumstrengthinonedirection.

2-Dgivesstrengthintwodirections.

Isotropicgivesstrengthequallyinalldirections.

Compositestrengthdependsonfollowingfactors:

✧Inherentfiberstrength,Fiberlength,Numberofflaws

✧Fibershape

✧Thebondingofthefiber（equallystressdistribution）

✧Voids

✧Moisture（couplingagents）

B.ParticleComposites

Particlesusuallyreinforceacompositeequallyinalldirections（calledisotropic）.Plastics,cermetsandmetalsareexamplesofparticles.

Particlesusedtostrengthenamatrixdonotdosointhesamewayasfibers.Foronething,particlesarenotdirectionallikefibers.Spreadatrandomthroughoutamatrix,particlestendtoreinforceinalldirectionsequally.

Cermets

✧Oxide–BasedCermets

✧Carbide–BasedCermets

Metal–plasticparticlecomposites

Metal–in–metalParticleCompositesandDispersionHardenedAlloys

C.FlakeComposites

Flakes,becauseoftheirshape,usuallyreinforcein2-D.Twocommonflakematerialsareglassandmica.（Alsoaluminumisusedasmetalflakes）

Aflakecompositeconsistsofthin,flatflakesheldtogetherbyabinderorplacedinamatrix.Almostallflakecompositematrixesareplasticresins.Themostimportantflakematerialsare:

✧Aluminum

✧Mica

✧Glass

Basically,flakeswillprovide:

✧Uniformmechanicalpropertiesintheplaneoftheflakes

✧Higherstrength

✧Higherflexuralmodulus

✧Higherdielectricstrengthandheatresistance

✧Betterresistancetopenetrationbyliquidsandvapor

✧Lowercost

D.LaminarComposites

Likeallcompositeslaminarcompositesaimatcombiningconstituentstoproducepropertiesthatneitherconstituentalonewouldhave.

Inlaminarcompositesoutermetalisnotcalledamatrixbutaface.Theinnermetal,evenifstronger,isnotcalledareinforcement.Itiscalledabase.

Wecandividelaminarcompositesintothreebasictypes:

✧Unreinforced–layercomposites

（1）All–Metal

（2）Metal–Nonmetal（metalwithplastic,rubber,etc.）

（3）Nonmetal（glass–plasticlaminates,etc.）

✧Reinforced–layerco