module catalogue study guide for the degree program mechanical engineering · 2019. 5. 13. ·...
TRANSCRIPT
Academic year 18/19
Module catalogue
Study Guide for the degree programMechanical EngineeringBachelor of ScienceMaster of Science
Module Catalogue, Study Guide of the Faculty of Mechanical Engineering
ContentCurriculum Bachelor Mechanical Engineering ..................................................................................3
Compulsory Moduls ..........................................................................................................................4
Elective compulsory Moduls ...........................................................................................................30
BachelorMechanicalEngineering
1. Semester 2. Semester 3. Semester 4. Semester 5. Semester 6. Semester
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31 Mobility Window
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ECTS 31 31 30 31 29 28 180
Mathematics and Natural Science
Electrical Engineering and Information
Technology
Fundamentals of Engineering Sciences
Key CompetenciesElectice field of Competencies
Design Theory & Materials Science
Bachelor ThesisEnergy Technology and
Natural Sciences
*ITP=InformationTechnologyInternship*AML=GeneralMeasurementTechnologyLab
Pre-
Stud
y in
tern
ship
8 w
eeks
Control Engineering(4 ECTS)
+ITP* B (1 ECTS)
Exam
Measurement Technology(4 ECTS)
+ITP* C (1 ECTS)
Exam
Engineering Mechanics IV
(5 ECTS)
Exam
Bachelor thesis module
(13 ECTS) Bachelor
thesis(11 ECTS)
Presentation (1 ECTS) Academic performance
Introduction to scientific working (1
ECTS) Academic performance
(13 ECTS)
Information Technology(4 ECTS)
+ITP* A (1 ECTS)
Exam
Fluid Mechanics (4 ECTS)
+ AML* A (1 ECTS)
Exam
Thermodynamics II(4 ECTS)
+Lab (1 ECTS)
Exam
Heat Transfer (4 ECTS)
+ AML* B (1 ECTS)
Exam
Professionel Qualification (15 ECTS)
optional specialized internship
alternatively: further mandatory elective modules
Exam/Oral
Numerical Mathematics(6 ECTS)
Exam
Mandatory elective module I(5 ECTS)
Exam/Oral
Mandatory elective module II(5 ECTS)
Exam/Oral
Design Project IV (5 ECTS)
Academic performance Tutorial or extracurricular studies 4
ECTS
Exam/Oral
Principles of Electrical Engineering I
EE I (4 ECTS) + Lab (1 ECTS)
+Bachelor Project
(4 ECTS)
Exam
Materials Science I (5 ECTS)
Exam
Mathematics I(8 ECTS)
Exam / short examen
Design Theory I (2 ECTS) +
KP I (2 ECTS)(4 ECTS)
Engineering Mechanics I
(5 ECTS)
Exam
Principles of Electrical Engineering II and Electrical Drives
EE II (4 ECTS)+ Lab (1 ECTS)
Exam
Materials Science II (4 ECTS) + Lab (1 ECTS)
Exam
Mathematics II(8 ECTS)
Exam / short examen
Engineering Mechanics II
(5 ECTS)
Exam
Signals and Systems(3 ECTS)
Exam+
Physics (3 ECTS) Academic performance
(6 ECTS)
Design Theory II (2 ECTS)
+Design Project II (3)
Exam
Design Theory III (3 ECTS) Lecture+ Excercise Course
Exam
Thermodynamics I (4 ECTS)Exam
+Chemie (3 ECTS)
Academic performance
(7 ECTS)
Introduction Manufacturing
Technology(5 ECTS)
Exam
Design Theory IV(7 ECTS)
Lecture+Excercise Course (4)
Design Project III (3)
Exam
Engineering Mechanics III
(5 ECTS)
Exam
3
Modulename ElectrotechnicalBasicResearchLaboratoriesIModulenameGER ElektrotechnischesGrundlagenlaborIResponsiblelecturer Dierker,Garbe,Zimmermann Semester WiSe
InstituteInstituteofElectricalEngineeringandMeasurementTechnology ETCS 2
Moduledescription
Practicalimplementationoftheoreticalandabstractelectrotechnicalworkingmethods.Basichandlingofsimpleelectrotechnicaldevices.Experimentswithdirectandalternatingcurrent:Experiment1:Currentandvoltagemeasurements.Experiment2:Networkanalysis.Experiment3:Fundamentalsofelectromagneticenergyconversion.Experiment4:Operatingbehaviorofanasynchronousmachine.
4
Modulename BasicsofElectricalEngineeringIIforMechanicalEngineersModulenameGER GrundlagenderElektrotechnikIIResponsiblelecturer Hanke-Rauschenbach,Steinbrink Semester SoSeInstitute InstituteofElectricPowerSystems ETCS 4ModuledescriptionThismoduletogetherwiththemodule“FundamentalsofElectricalEngineeringIforMechanicalEngineering",conveysthefundamentalsinthefieldofelectricalengineeringthatarerelevantformechanicalengineeringstudies.Aftersuccessfulcompletionofthemodulethestudentsarefamiliarwith:
• Theimportantparametersforcharacterizingthemagneticfield.• Theimportanttypesanddesignsofelectricdrivemachinesaswellastheirbasicstructure,their
areasofapplicationandtheabilitytointerpretnameplatedata,knowthemostimportantmaterialsusedandtheirapplicationlimits.
• Usingtheexampleofinductionandsynchronousmachines,thestudentsareabletoexplainthefunctionalprincipleandcanillustratetheoperatingbehaviorandlimitcharacteristicsofthemachinesbymeansofequivalentcircuitdiagrams.Theyalsohaveanoverviewofparasiticeffects(noisedevelopment,bearingload,etc.)andtransientproperties.
• Conceptsforcoolingandmachineprotectionandhaveanoverviewofdrivecontrolinparticular,speedcontrol.
• Thepossiblecausesofelectricalaccidentsandevaluationofthehazardpotentialofbodycurrents,knowthemostimportantconceptsfortheavoidanceofhazardscausedbyshortcircuitsintheTTandTN-Ssystems.
Modulecontents:• Magneticfield.• Electricalmachines.• Measurestoprotectagainstelectricalaccidentsandprotectivedevices.
5
Modulename MaterialScienceIModulenameGER WerkstoffkundeIResponsiblelecturer Maier,Nürnberger Semester WiSeInstitute InstituteofMaterialsScience ETCS 5ModuledescriptionQualificationgoals:Inthismodule,thebasicsofmaterialssciencewillbetaught.Onthebasisofthegainedknowledge,studentswillbeabletoanswercurrentquestionsonapplicationsorientedtomaterialstechnologies:
• Subdividethetechnicalmaterials.• Presentthestructureofsolidmaterials.• Materialselectionbasedontheknowledgeofbasicphysical,chemicalandmechanical
propertiesofdifferentmetallicmaterials.• Statediagramsofdifferentmaterialsystemstoreadandinterpret.• Explaintheprocessofsteelproductionanditsindividualstepsindetail.• Describetheinfluenceofselectedelementsonthemechanicalandtechnologicalpropertiesof
thematerialduringalloyformation.• Designaheattreatmentstrategyfortheadjustmentofdesiredmaterialpropertiesofsteel
materials.• Explaindifferentmechanicalandnon-destructivetestmethodsandinterprettestresults.• Explaincastingprocessesofmetallicalloysaswellasbasicdesignguidelines.• Relatecorrosionphenomenatothecorrespondingmechanismandfindsolutionstoavoidor
minimizecorrosiveattack.
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Modulename MaterialScienceIIModulenameGER WerkstoffkundeIIResponsiblelecturer Möhwald Semester SoSe
InstituteInstituteofElectricalEngineeringandMeasurementTechnology ETCS 4
Moduledescription
Theaimofthemoduleistogainanunderstandingofthemanufacturingprocesses,developpropertiesandapplicationsofnon-ferrousmetals,polymerandcompositematerials,aswellasceramicsandhardmetals.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Classifyanddifferentiatethepropertiesofnon-ferrousmetalsandtheiralloyssuchasaluminium,magnesiumortitaniumandtodescribetheirmanufacturingprocesses.
• Nameandexplainpolymermaterialsandtheirmanufacturingprocesses.• Presenttheproduction,propertiesandapplicationsofceramicmaterialsinadifferentiated
manner.• Classifyandevaluatehardmetalsandcermetsintermsofproperties,manufactureand
applications.• Classifycompositematerialsandexplaintheirmanufactureandapplication.
Contentsofthemodule:• Non-ferrousmetals• Polymermaterials• Ceramicmaterials• Compositematerials
7
Modulename MathematicsforEngineersIModulenameGER MathematikIfürIngenieureResponsiblelecturer Frühbis-Krüger Semester WiSeInstitute InstituteofAlgebraicGeometry ETCS 8Moduledescription
Thiscourseconveysthebasicconceptsoflinearalgebrawithapplicationsandthesolutionoflinearequationsystemsandeigenvalueproblems.Anintroductionoftheconceptoflimitvaluesinitsdifferentversionsandtheareasbasedonit,suchasdifferentialandintegralcalculus.Powerseries,seriesexpansions,forexampleTaylorseries,determinethecourse.Mathematicalconclusionsandmethodsbasedonthemareatforegroundofthesubjectmatter.
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Modulename MathematicsforEngineersIIModulenameGER MathematikIIfürIngenieureResponsiblelecturer Frühbis-Krüger Semester SoSeInstitute InstituteofAlgebraicGeometry ETCS 8Moduledescription
Inthiscoursethemethodsofdifferentialandintegralcalculusarefurtherdevelopedandappliedtomorecomplicatedareas.Thisincludesdifferentialcalculusappliedtoscalar-valuedandvector-valuedfunctionswithmorevariables.Theintegralcalculusisextendedtomultipleintegralsandlineintegrals.Differentialequationsplayanimportantroleintechnicalapplications.Thefocushereisonfirstorderdifferentialequationsandlineardifferentialequationsystemswithconstantcoefficients.
9
Modulename TheoryofDesignIModulenameGER KonstruktionslehreIResponsiblelecturer Lachmayer Semester WiSeInstitute InstituteofProductDevelopment ETCS 2Moduledescription
Thecourseteachesthebasicsofthedesignandmanufacturingprocessofproductsandservesasabasisfortheentiredesigntheory.Thestudentswillbeableto:
• Nameimportantconstructivedesignelementsofmachines.• Readandcreatetechnicaldrawings.• Namemethodsforproductdevelopment.• Nameandcalculatefittypes.• Describefunctionalityandproductionofmachineelements.
Modulecontents:• Introductiontoproductdevelopment.• Introductiontothemachineelements.• Technicaldrawing.• Tolerancetheory.• Designofindividualpartssuitableforproduction.
10
Modulename TheoryofDesignIIModulenameGER KonstruktionslehreIIResponsiblelecturer Lachmayer Semester SoSeInstitute InstituteofProductDevelopment ETCS 2Moduledescription
Themoduleconveysadvancedcontentsfromthefieldofdesignandthusdeepensthelearnedcontentsofthelecture“TheoryofDesignI”.Thestudentswillbeableto:
• Modelinparametric3DCADsystems.• ClassifythecomponentsofthedevelopmentenvironmentsofCADsystems.• Classifygearboxeswithnon-uniformtransmissionratios.• Designcastandweldedconstructions.
Modulecontents:• Methodicaldesignandcreation.• IntroductiontoCADModeling.• Parametricdesignandfeaturetechnology.• Computeruseindesign-developmentenvironments.• Drivesystems.• Gearboxeswithnon-uniformtransmissionratios.• Castconstruction.• Weldedconstruction.
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Modulename TheoryofDesignIIIModulenameGER KonstruktionslehreIIIResponsiblelecturer Poll Semester Wi-/SoSeInstitute InstituteofMachineDesignandTribology ETCS 3Moduledescription
Themoduleprovidesanoverviewoftheessentialdesignelementsofmechanicalengineeringandthustakesupthecontentsofthelectures"TheoryofdesignIandII".Thislectureappliesbasicknowledgeofmechanicsandmaterialsscienceinordertousethisknowledgeforthedesignandcalculationofmachineelements.Aftersuccessfulcompletionofthemodule,thestudentsareableto:
• Understandcomplexmachinesintheirfunctionandtheinteractionoftheindividualmachineelements.
• Designmachineelementswiththehelpofabasicunderstandingofcommoncalculationmethods.
• Provetheiroperationalstability.Contents:
• Gearwheels.• Rollingbearings.• Couplings.• Springs.• Stress–strainanalysis.
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Modulename TheoryofDesignIVModulenameGER KonstruktionslehreIVResponsiblelecturer Poll Semester WiSeInstitute InstituteofMachineDesignandTribology ETCS 4Moduledescription
Qualificationgoals:Thefundamentalsdevelopedintheprecedinglecturesaswellasinmechanicsandthermodynamicsareappliedforthedesignandcalculationoffurthermachineelements.Thefocusisonthedynamicinteractionofthecomponents.Themainfocusisongearboxes(gear,frictionwheelandwrappingmaterial),startingclutches,brakesandplainbearings.Inaddition,thewell-knownelementsaredealtwithinmoredetail,suchasthetheoryandcalculationofgeardrives.Additionally,thereisanintroductiontofurthertopicssuchaslubricationandtribology.
Contents:
• Connectiontypes.• Screws.• Shaft-hub-connections.• Plainbearings.
13
Modulename ConstructionalProjectIVModulenameGER KonstruktivesProjektIVResponsiblelecturer Poll Semester SoSeInstitute InstituteofMachineDesignandTribology ETCS 5ModuledescriptionThecourseprovidesin-depththeoreticalandpracticalknowledgeofthedesignprocessofmachinesandequipment.Thefirstpartofthemodule(ProductDesignProjectIV/Part1)consistsofadesigntaskduringthesemester,inwhichthestudentsdesignatrue-to-scaleassemblydrawingofagearbox.Thestudentsaresupervisedduringthesemesterbyregulartutorials(certificates)insmallgroups.Thesecondpart(ProductDesignProjectIV/Part2)consistsofawrittenperformancerecordinwhichtheknowledgeacquiredinthe“ConstructionalProjectIII”and“ConstructionalProjectIV/Part1”isapplied.Aftersuccessfulparticipation,thestudentsareableto:
• Drawbasictechnicalsolutiononthebasisofageneraldescriptionoftasks.• Converttheprinciplesolutionintoabuildingstructureandtoelaborateit.• Createassemblyandproductiondrawingsofindividualparts.• Providemathematicalproofsofstrengthandservicelifeofbasicmachineelements.• Prepareworkresults.
Contents:• Creationofrequirementlists.• BasicsCalculationofgearboxes.• Basiccalculationofmachineelementsandconnections.• Creationoftechnicalprinciplesketches.• Preparationoftechnicaloverviewdrawingswithconsiderationofnecessaryviewsandsections.• Preparationofindividualpartdrawingssuitableforproduction.
14
Modulename EngineeringMechanicsIModulenameGER TechnischeMechanikIResponsiblelecturer Wallaschek,Wriggers Semester WiSeInstitute InstituteofDynamicsandVibrationResearch ETCS 5Moduledescription
Aim:Themoduleteachesthebasicmethodsandinterconnectionsofstaticsforthedescriptionandanalysisofrigidbodies.Aftersuccessfulcompletionofthemodule,studentswillbeableto:
• Analyzeandsolvestructuralproblemsindependently.• Explainthefree-bodyprincipleandthefreebodydiagrambasedonit.• Determinestaticequilibriumconditionsofrigidbodies.• Analyticallycalculatebearingreactions(incl.frictioneffects).• Analyzestaticallydeterminedtruss.• Determinestressvalues(internalforces)onthebeam.
Contents:• Staticsofrigidbodies,forcesandmoments,equivalenceofforces.• Newtonianlaws,axiomoftheparallelogramofforces.• Conditionsofequilibrium,centreofgravityofrigidbody.• Adhesionandfriction,Coulomb'slaw,ropefrictionandadhesion.• Flatandspatialframeworks.• Flatandspatialbeamsandframes,internalforces.• Work,potentialenergyandstability,principleofvirtualwork.
15
Modulename EngineeringMechanicsIIModulenameGER TechnischeMechanikIIResponsiblelecturer Wallaschek,Wriggers Semester SoSeInstitute InstituteofDynamicsandVibrationResearch ETCS 5Moduledescription
Aim:Themoduleimpartsthebasicmethodsandcorrelationsofstrengththeoryforthedescriptionandanalysisofdeformablesolids.Aftersuccessfulcompletionofthemodule,studentswillbeableto:
• Analyzeandsolvestructuralproblemsindependently.• Determinetheloadinganddeformationofmechanicalcomponentsasaresultofdifferent
loads.• Solvestaticallyindeterminateproblems.• Evaluatethestabilityofbarsunderbucklingload.
Contents:• Elementarystresstypes,stressesandstrains.• Stressesinropeandbar,longitudinalandtransverseelongation,thermalexpansion.• Solvestaticallyindeterminateproblems.• Planeandspatialstateoftensionanddistortion,Mohr'sstresscirclemainstresses.• Straightandobliquebending,momentsofinertiaofsurfaces.• Torsion,circularandannularcross-sections,thin-walledcross-sections.• Energymethodsinstrengththeory,workingtheorem,principleofvirtualforces.• Buckling,Euler'sbucklingcases.
16
Modulename EngineeringMechanicsIIIModulenameGER TechnischeMechanikIIIResponsiblelecturer Wallaschek,Wriggers Semester WiSeInstitute InstituteofContinuumMechanics ETCS 5Moduledescription
Thebasicsofkinematicsandkineticsaretaught.Thetaskofkinematicsistodescribethepositionofsystemsinspaceandthechangesinpositionasafunctionoftime.Thisincludesthemovementofapointinspaceandtheflatmovementofrigidbodies.Theconnectionbetweenmovementsandforcesarethesubjectmatterofkinetics.Theaimistopresentthebasiclawsofmechanicsintheformofimpulseandangularmomentumandtoapplythemexemplarilytomasspointsandrigidbodies.Theirinertiapropertiesarealsodiscussed.Inaddition,impactprocessesofarigidbody.
17
Modulename EngineeringMechanicsIVModulenameGER TechnischeMechanikIVResponsiblelecturer Wallaschek,Wriggers Semester SoSeInstitute InstituteofContinuumMechanics ETCS 5Moduledescription
Anintroductiontothetechnicalvibrationtheoryisgiven.Mechanicaloscillatorsandoscillationsystemsthatcanbedescribedbylineardifferentialequationsaretreated.Theaimistherepresentationofvibrationphenomenasuchasresonanceanddamping,thedeterminationofthetimeresponseoftheoscillatorsaswellasinvestigationsonhowthistimeresponsecanbechangedinthedesiredway.Therelationbetweenmechanicalengineeringandcontrolengineeringareshown.Freeandforcedoscillationswithadegreeoffreedom(undampedanddamped)aswellasmultipledegreeoffreedomsystemsandcontinuaaretreated.
18
Modulename SignalsandSystemsforProductionandLogisticsandMechanicalEngineeringModulenameGER SignaleundSystemefürProduktionundLogistikundMaschinenbauResponsiblelecturer Peissig Semester WiSeInstitute InstituteofCommunicationsTechnology ETCS 3Moduledescription
Thestudentsknowthebasicsofthetime-andvalue-continuoustheoryofsignalsandsystemsandtheirfieldsofapplication.Theycanapplythetheoryinthespecificmodules,analyzeandworkontheproblemsoccurringtherewithsystemstheoreticalmethods.
19
Modulename PhysicsforStudentsofEgineeringTechnologyModulenameGER PhysikfürStudierendederIngenieurwissenschaftenResponsiblelecturer DozentenderQuantenoptik Semester WiSeInstitute InstituteofQuantumOptics ETCS 3Moduledescription
Inthiscourse,themostimportantphysicalmodelsfromthebroadspectrumofphysicsareexplainedandapplied.Themathematicalformulationthenmostlyresultsinanaspreciseandsimpledescriptionofthemodelsaspossible.Asoundbasicknowledgeofphysicsisanessentialprerequisiteforengineerstobetrulyinnovativeandnotjusttocontinuouslyimprovewhatalreadyexists.
20
Modulename ThermodynamicsI/ChemistryModulenameGER ThermodynamikI/ChemieResponsiblelecturer Kabelac Semester WiSeInstitute InstituteofThermodynamics ETCS 7Moduledescription
Thelectureintroducesintotheenergeticbalancingofsystemsanddeepensthiswithexamplesfromtheenergytechnology.Thestudentsfirstgettoknowdifferentformsofenergy,balanceareasandbalancetypesinordertocarryoutquantitativecalculationsonthebasisofthefirstlawforopenandclosedsystems.Thesecondlawintroducestheconceptofentropy,withwhichthedifferentmanifestationsofenergycanbeevaluated.Thisknowledgecanthenbeappliedtotechnicalsystemssuchasthesimplecompressionrefrigerationsystemandthermalengine.Inaddition,thestudentslearnsimplemodelsderivedfromfundamentalthermodynamicequationsfortherapidcalculationofmaterialproperties.Modulecontents:
• Balancesheetsandbalanceareas• Conditionandstatevariables• Thermal,caloricandentropicequationsofstateforpuresubstances• Firstandsecondlawofthermodynamics• Simplecompressionrefrigerationcircuit• Thermalengine
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Modulename ThermodynamicsII/ThermoLabModulenameGER ThermodynamikII/ThermoLabResponsiblelecturer Kabelac Semester SoSeInstitute InstituteofThermodynamics ETCS 5
ModuledescriptionThemoduleroundsoffthefundamentalsoftechnicalthermodynamicstaughtinthemodule"ThermodynamicsI/Chemistry"byapplyingthemainlawsofthermodynamicstodifferentenergyconversionprocesses.Aftersuccessfulcompletionofthismodule,studentswillbeableto:
• Describedifferentpathsforconvertingprimaryenergyintousefulenergy• Quantitativelybalanceandtheevaluationofvarioustechnicallyrelevantenergyconverters
suchasfurnaces,fuelcells,gasturbineplantsandsteampowerplants.• Describetheenvironmentalproblembyburningfossilfuelsandtoshowsolutions.• Extendtheassessmentofthetransformabilityofformsofenergybytheconceptofexergy.The
laboratorywillacquirecompetencesinthepracticalhandlingofenergyconvertersonalaboratoryscale,andsocialcompetencewillbepromotedthroughgroupwork.
Modulecontents:• Combustionandfuelcell• Steamcycle,Stirlingengineandgasturbineplantasthermalengine• Themodernpowerplant/CO2• SequestrationCCS• Flowandworkingprocesses• Exergyandanergy• Heatpump,chiller,airconditioningandhumidair
22
Modulename IntroductionofManufacturingTechnologyModulenameGER EinführungindieFertigungstechnikResponsiblelecturer Behrens Semester WiSeInstitute InstituteofFormingTechnologyandMachines ETCS 5ModuledescriptionThemoduleprovidesanoverviewandspecificknowledgeofthefieldofmachiningandformingproductionprocesses.Aftersuccessfulcompletionofthemodule,studentsareabletoachievethefollowingqualificationgoals:
• Theeconomicandtechnicalsignificanceofproductiontechnologyforindustry• Correctlyclassifyanddescribethevariousmachiningandformingmanufacturingprocesses• Describethedifferencebetweenmachiningprocesseswithgeometricallydefinedand
undefinedcuttingedgesonthebasisoftheirspecialfeaturesandareasofapplication• Describeandevaluatetheeconomicbackgroundofmachiningprocessesonthebasisofwear,
servicelifeandcostaccounting• Describethemetallurgicalfundamentalsforthegenerationofplasticdeformations• Describetheinfluencingvariablesandprocesslimitsofformingprocesses,toclassifythemode
ofoperationofdifferentformingmachineswithregardtotheirareasofapplicationModulecontents:Fieldsofapplicationofmanufacturingtechnology,machiningandnon-cuttingmanufacturingprocesses,machiningwithgeometricallydefinedandundefinedcuttingedge,calculationofprocessforces,chipformation,cuttingmaterials,toolwear,toollife,qualitycriteriaandrequirementsformanufacturingprocesses,sheetmetalforming,hotmassiveforming,coldmassiveforming,formingmachines,simulationinformingtechnology,calculationofforminggrains.
23
Modulename AutomaticControlEngineeringIModulenameGER RegelungstechnikIResponsiblelecturer Reithmeier Semester SoSeInstitute InstituteofMeasurementandAutomaticControl ETCS 4Moduledescription
Inthiscourse,anintroductiontothebasicsofcontrolengineeringwillbegivenandtechniquessuchasrootlocusandNyquistmethodswillbedemonstratedusingtypicaltasks.Thecourseislimitedtolinear,time-continuoussystemsorcontrolloopsandconcentratesontheirdescriptioninthefrequencydomain.Finally,someproceduresforcontrollerdesignarediscussed.
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Modulename InformationTechnologyModulenameGER InformationstechnikResponsiblelecturer Stock,Overmeyer Semester SoSeInstitute InstituteofTransportandAutomationTechnology ETCS 4Moduledescription
Theaimofthislectureistoteachstudentsthebasicsofinformationtechnology.Firstthemathematicalbasics(numbersystems,Booleanalgebra,etc.)ofinformationtheoryareexplained.Thisisfollowedbythechaptersoftwarefromalgorithmstoprogram.Furthermore,thestructure(hardware)ofEDPsystemsisdealtwith.Throughsuccessfulparticipationinthislecturethestudentsareintroducedtothecomponentsofmoderncomputersandthebasicsoftoday'snetworksareexplained.Thelectureconcludeswithachapteronthesecurityofcomputersystems.Content:
• Introduction• Overviewsoftware:numbersystemsalgorithmsfromalgorithmtoprogramming,programming
languages,softwareoperatingsystems• Hardware:BasicsHW-SWCPUALURegisterMemoryNetworksAuto-ID/RFID• Security
25
Modulename NumericalMathematicsModulenameGER NumerischeMathematikResponsiblelecturer Attia,Leydecker Semester Wi-/SoSeInstitute InstituteofAppliedMathematics ETCS 6ModuledescriptionDifferenttoolsforengineeringmathematicsarelearned,whicharerelevantforthebasicstudies.ThesetoolsarealsousedinothermodulesandformthebasisfortheknowledgeandskillstobeacquiredintheMaster'sprogramme.Aftergraduation,thestudentsarequalifiedto:
• Translateengineeringproblemsintomathematicalstructures• Applymathematicalmethodsforthepurposeofproblemsolving• Beabletouseproceduresflexiblyandjustifiably• Workindependentlyonnewmathematicalissues• Interpretandtesttheresultsofmathematicalmodeling• Estimatetheefficiencyandlimitsofmathematicalmethods• Dealcreativelyandconstructivelywithmathematicalmethods• Carryoutsubject-relatedresearch• Understandmathematicsasanabstractandstrictlyformalizedformoflanguage• Understandtheideasofmathematicalfacts
Content:• Directanditerativemethodsforlinearsystemsofequations• Matrixeigenvalueproblems• Interpolationandequalizationcalculus,numericalquadrature• Nonlinearequationsandsystems• Laplacetransform,ordinaryandpartialdifferentialequations• Boundaryvaluetasks,eigenvaluetasksforordinarydifferentialequations
26
Modulename MetrologyIModulenameGER MesstechnikIResponsiblelecturer Reithmeier Semester WiSeInstitute InstituteofMeasurementandAutomaticControl ETCS 4Moduledescription
Thecourseisanintroductiontometrology.Themeasurementprocessisdescribedandanalyzedbyamathematicalmodel.Themeasurementsystemisconsideredstationaryanddynamicinthetimeandfrequencydomain.Measurestoimprovethetransmissionbehaviour,amplificationandfilteringarediscussed.Additionallythemeasuredvaluestatisticsaredealtwithunderconsiderationoffrequencydistributions,errorpropagationandlinearregression.
27
Modulename FluidDynamicsIModulenameGER StrömungsmechanikIResponsiblelecturer Seume Semester WiSeInstitute InstituteofTurbomachineryandFluidDynamics ETCS 4Moduledescription
Thelectureteachesthebasicsoffluidmechanics.Forthispurpose,theflowpropertiesoffluidsareexplainedandthebasicequationsfordescribingthedynamicsofflowsarepresented.First,theincompressiblefluidmechanicsistreated,inthecontextofwhichhydrostaticsandhydrodynamicsaretaught.Thebasicequationsoffluidmechanics,suchasthecontinuityequationandtheBernoulliequation,arederived.Byapplyingthebasicequationstotechnicallyrelevantinternalandexternalflows,studentswillgainanunderstandingoffluidmechanicsinrelationtotechnicalproblems.Anintroductiontogasdynamicswillbegiveninviewofthelectures.
28
Modulename HeatTransferIModulenameGER WärmeübertragungIResponsiblelecturer Scharf Semester WiSe
InstituteInstituteofPowerPlantTechnologyandHeatTransfer ETCS 4
Moduledescription
Themoduleprovidesbasicknowledgeaboutthethreemechanismsofheattransfer.Aftersuccessfulcompletionofthemodule,thestudentsareableto:
• Understandthemechanismsofheattransferbasedonthermodynamiclaws• Findtheappropriatemodelforarealheattransfertechnicalproblemandtoreduceittoa
sufficientlyprecisesolutionbymakingappropriateassumptions• Quantitativelysolveapproachestosolveheattransferproblemsbyapplyingappropriate
correlations• Carryoutbasicthermaldesignsofsimpleheatexchangers
Contents:• Stationaryheattransfer• Heatradiation• Instationaryheatconduction• Heattransferatfins• Designofheatexchangers• Convectiveheattransport• Introductiontoboilingandcondensing.
29
Modulename AutomaticControlEngineeringIIModulenameGER RegelungstechnikIIResponsiblelecturer Reithmeier Semester WiSeInstitute InstituteofMeasurementandAutomaticControl ETCS 5Moduledescription
Thelecturedealswiththefollowingtopics:• Digital-to-analogandanalog-to-digitalconverter• Discretizationoftime-continuouscontrolledsystems• Time-discrete transmission elements (z-transformation, transmission behaviour in time and
frequencydomain,digitalfilters)• Linear,time-invariant,digitalcontrolloops• Stabilityoflinearcontrolloops• Designmethodfordigitalcontrollers(deadbeatdesign,discreteequivalentofanalogcontrollers,
rootlocusmethod,Nyquistmethod,statecontroller,etc.)• Generation of control algorithms in the time domain and their implementation on
microcomputers
30
Modulename Automation:ComponentsandEquipmentsModulenameGER Automatisierung:KomponentenundAnlagenResponsiblelecturer Overmeyer Semester SoSeInstitute InstituteofTransportandAutomationTechnology ETCS 5ModuledescriptionThe lecture explains the terminology of automation and provides basic knowledge for the design ofcomponents and automated systems with a focus on production engineering. After successfulcompletionofthemodule,thestudentswillbeableto:
• Definebasictermsofautomationtechnology• Sensortypescanbedifferentiatedaccordingtotheirmodeofoperationandsuitablesensorscan
beselectedforanautomationtask• Selectmechanical,electricalandpneumaticactuatorsforanautomationtask• Designmechanicalactuatorsdependingonloadvariablesandtodescribeanddesignpneumatic
systems• Characterizesystemcomponentssuchasfastaxesandhandlingelementswiththeiradvantages
anddisadvantages• Distinguishbussystemswithregardtotheirapplicationinproductionplants• Describeandapplycommondesignproceduresforproductionsystems
Contents:• Introductiontoautomationtechnology• Sensors:Physicalsensoreffects,opticalsensors• Mechanicalactuators,electricalactuatorsandswitches,pneumaticactuators• Systemcomponents:controls,fastaxes,handlingelements,bussystems• Designproceduresforplants• Automatedconveyorsystems,systemtechnologyinthesemiconductorindustry
31
Modulename BasicTransportPhenomenaModulenameGER TransportprozesseinderVerfahrenstechnikIResponsiblelecturer Glasmacher Semester WiSeInstitute InstituteofMultiphaseProcesses ETCS 5Moduledescription
Qualificationgoals:Themodule imparts solutioncompetencies forcopingwithspecific tasks inprocessengineering.Thefocusisonconvectiveanddiffusivemasstransportprocessesaswellasrheologicallawsinsingle-phaseapplicationsandtheirtechnicalimplementation.Aftersuccessfulcompletion,thestudentswillbeableto:
• Explain and analyze transport processes and to explain processes that are elementary andmathematicallyeasiertohandlebyapplyingsimplisticconsiderations
• Explainthebasicsofdimensioningofapparatusesandplantsformaterialchangingprocesses• Carryoutabasictechnicaldesignbasedontheprocessparameters
Contents:• Diffusionindormantmedia• Chemicalreactions• Compensationprocesses• Flowsinpipesandonflatplates• Dryingofsolidmaterials• Single-phaseflowsinpackedlayers• Filtration
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Modulename BiocompatibleMaterialsModulenameGER BiokompatibleWerkstoffeResponsiblelecturer Klose Semester SoSeInstitute InstituteofMaterialsScience ETCS 5Moduledescription
Qualification goals: The lecture BiocompatibleMaterials gives a basic overview of the implants andimplantmaterialscurrentlyusedinmedicine.Aftersuccessfulparticipationinthecourse,thestudentswillbeableto:
• Explainthebasicsofmaterialsscienceandtheirinteractionswithotherimplantedmaterials• The influence of metallic implants on the tissue is described by cases of damage to
endoprostheses• Detailedcontents,especiallywithregardtothematerialclassesmetals,polymersandceramics
andtheirmanufacturingandapplication-specificcharacteristics,wherebybothabsorbableandpermanentimplantapplicationsareconsidered,named,characterizedandevaluated
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Modulename BiomedicalEngineeringforEngineersIModulenameGER BiomedizinischeTechnikfürIngenieureIResponsiblelecturer Glasmacher Semester WiSeInstitute InstituteofMultiphaseProcesses ETCS 5Moduledescription
Qualificationgoals:Themoduleteachesthebasicsofbiomedicaltechnologyusinganumberofmethodsandmedicaldevices.Aftersuccessfulcompletionofthemodule,studentsareableto:
• Explaintheanatomicalandphysiologicalbasicsofrelevanttissuesandorgans.• Explainthebasicexchangeandtransportprocessesofsubstances inthebodyandtheirbasic
principles.• Describemathematicalones.• Explain the function of medical devices and implants and to abstract and mathematically
describethebasicprocesses.Contents:
• AnatomyandPhysiology.• Biologicalinteractionandbiocompatibility.• Bloodcurrents.• Medicaldevicesandapplications.• Implanttechnologyandendoprosthetics.
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Modulename CAx-ApplicationsinProductionModulenameGER CAx-AnwendungeninderProduktionResponsiblelecturer Böß Semester WiSeInstitute InstituteofProductionEngineeringandMachineTools ETCS 5ModuledescriptionThe event provides an introduction to the functionality and fields of application of computer-aidedsystems(CAx)fortheplanningofmachiningmanufacturingprocesses.ThetopicswillleadalongtheCAD-CAMprocesschain(ComputerAidedDesign/Manufacturing).Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Planthesuperordinateprocessflowfortheexecutionofmachiningprocesses• Evaluateandselectdifferentprocedures• Applybasicproceduresfortherepresentationandtransformationofgeometricobjects inCAx
systems• Writesimpleprogramsfornumericallycontrolledmachinetools• Explain the models for the representation of workpieces in the simulation of manufacturing
processes• Explainthestepstobetakeninworkpreparation
Thefollowingcontentsarecovered:• Mathematicalmethodsandmodelsfortherepresentationofgeometricobjects• Structure,typesandfunctionalityofsoftwaretoolsforproductionplanning• Programminglanguagesfornumericallycontrolledmachinetools.Functionalityof• Machinecontrols• Planningofmanufacturingprocessesonnumericallycontrolled• Machinetools• Methodforthesimulationofmachiningmanufacturingprocesses• CAxincurrentresearchtopics• Structuringandclassificationofworkpreparation
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Modulename ConcurrentEngineeringModulenameGER ConcurrentEngineeringResponsiblelecturer Mr.Wurz Semester WiSeInstitute InstituteofMicroProductionTechnology ETCS 5Moduledescription
Thecompetitivenessofacompanyislargelydeterminedbythespeedatwhichnew,customer-orientedproducts arebrought tomarket (time-to-market). The aimof the lecture is to impart knowledge forshortening this time tomarket,which is achieved by networking product and process development.Different approaches, concepts and methods of product, technology and team management areconsidered.Furthermore,examplesoftheuseofconcurrentengineeringinindustrywillbeshown.ThestudentswilllearnhowtoConcurrentEngineeringprocess.
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Modulename ContinuumMechanicsIModulenameGER ContinuumMechanicsIResponsiblelecturer Aldakheel Semester WiSeInstitute InstituteofContinuumMechanics ETCS 5Moduledescription
Descriptionofthemodule:In“ContinuumMechanicsI”basictensoralgebraandtensoranalysiswillbediscussed.Basedonthat,conceptsofkinematics,e.g.deformation,deformationgradient,straintensorandpolardecompositionwillbeintroducedtoaccountfor3Dcontinuum.Finallythebalanceequations(mass balance, linear and angularmomentum balance, 1st and 2nd law of thermodynamics)will beillustrated.Intendedskills:Fornewtechnicaldevelopment,understandingof thebasicconceptsofmechanics isessentialtodesignanewproductorprocessinanoptimalway.Therefore,realisticmodelingisneeded.Thissubjecthandlesthetheoreticalbasicstoestimatetherealprocesses.Itformulatesalongwiththemodule"FiniteElementsI-II"thebasisforcomputationalengineering.Thecoursecontents:
• Introduction• Tensorcalculus• Kinematicsandstressesin3Dsetting• Curvilinearcoordinatesystem• Balanceequations
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Modulename DesignforadditivemanufacturingModulenameGER KonstruktionfürAdditiveFertigungResponsiblelecturer Lachmayer Semester WiSeInstitute InstituteofProductDevelopment ETCS 5ModuledescriptionThe subject imparts knowledge in the handling of additivemanufacturing processes and focuses oncomponentdesign incompliancewith restrictions.The fundamentalsofdesign theoryareapplied toadditivemanufacturingincombinationwiththedevelopmentmethodologyanddeepenedonthebasisofadesigntask.Thestudents:
• Knowtheareasofapplicationandpresentprocess-specificcharacteristics• Know the gesture restrictions and freedoms and perform calculations for component
dimensioning• Calculatebusinesscasesforatechnicallysensibleandeconomicaluse• Designaproductdesignthatcomplieswithrestrictionsandmanufacturethisindependently• Thinkabouttheadvantagesanddisadvantagesonthebasisoftheindividualproductdesign
Modulecontents:• Introductionandmotivation• Procedurearrangement• Filament-andliquid-basedprocesses• Powderbedbasedprocesses• Designmethodsandtools• Materialpropertiesandqualityaspects• Businesscase,futurescenarios• ReverseEngineering
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Modulename EnergyStorageIModulenameGER EnergiespeicherIResponsiblelecturer Hanke-Rauschenbach Semester WiSeInstitute InstituteofElectricPowerSystems ETCS 5ModuledescriptionThemodule imparts knowledge on the selection and use of electrical energy storage devices. Aftersuccessfulcompletionofthemodulethestudents:
• HaveanoverviewofdifferentFieldsofapplicationofelectricalenergystoragedevicesandtheirassociatedbusinessmodels.
• Are familiar with all important parameters for the characterization of storage and storageapplicationsandcancalculatethem
• Arefamiliarwithimportantstoragetechnologies,canexplaintheirfunctionalprinciplesandarefamiliarwiththeirpropertiesandtypicalapplications
• Arefamiliarwithasimplifiedsimulationmodelfordescribingtheoperatingbehaviorofstoragedevices(unifiedenergymodel)andcansuccessfullyuseittocalculatestorageapplications(usingMSExcel)
• Arefamiliarwiththebasicconcepts formanagingstoragefacilitiesandareableto formulateminimumstrategiesforselectedapplications
• HaveanoverviewoftheapproachestotechnologyselectionandroughdimensioningModulecontents:
• Fieldsofapplicationofelectricalenergystoragedevices• Importanttermsandparameters• Technologiesforstoringelectricalenergy• Simplifieddescriptionoftheoperatingbehaviourofelectricalenergystoragedevices• Operationalmanagementofelectricalenergystoragedevices• Selectionoftechnologyandroughdimensioning
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Modulename FiniteElementsIModulenameGER FiniteElementsIResponsiblelecturer Marino,Soleimani Semester WiSeInstitute InstituteofContinuumMechanics ETCS 5Moduledescription
DuringthelastdecadestheFiniteElementMethodhasbecomethemostimportantindustrialsimulationtoolbecauseitisapplicabletoahugeamountofindustrialproblems.In"FiniteElementsI"thebasicsoftheFiniteElementMethodappliedtolinearelasticityaretaught.First,simplemechanicalmodelslikerodsandbeamsthatarewellknownfromengineeringmechanicsaretreated.Bymeansofsimpletwodimensional continuum mechanics problems the isoparametric concept, numerical quadrature, thecalculation of equivalent nodal forces as well as post-processing, error estimation and control andvisualization of results are discussed. Finally numericalmethods for dynamic problems such as timeintegrationschemesandmodalanalysisarepresented.
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Modulename FluidflowenginesModulenameGER FluidenergiemaschinenResponsiblelecturer Seume Semester WiSeInstitute InstituteofTurbomachinesandFluidDynamics ETCS 5Moduledescription
Theaimofthislectureistodevelopaqualitativeintuitionforengineeringproblemsandchallengesoffluid energy engines, especially turbomachinery, based on the fundamental fundamentals of thisdiscipline.Thesefundamentalswillbecomplementedbyanumberofpracticalcasestudiestowhichthemethods developed in the lecture will be applied. In this way, their performance and limits aredemonstrated. The students are sensitized to themultitude of considerations and influences whichdeterminethedesignofthesecomplexmachinesandthuspreparethemforthenextstep,thedesign(lectureAerothermodynamicsofTurbomachinery).
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Modulename IndustrialHandlingandAssemblyModulenameGER Handhabungs-undMontagetechnikResponsiblelecturer Raatz Semester WiSeInstitute InstituteofAssemblyTechnology ETCS 5Moduledescription
Themodulegivesacompleteoverviewofthetheoreticalbasicsofassemblytechnology.Methodsforthedesignofassemblysystemsaredealtwithandexamplesfromindustryfortheimplementationofjoiningandhandlingprocessesarepresented.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Deriveanindustrialassemblyconceptfromaproductanalysis• Planassemblyprocessesandtoevaluatetheirautomatabilityaswellas• Evaluatetheeconomicefficiencyofassemblyprocesses
Modulecontents:• AssemblyplanningaccordingtoREFAandothermethods• Assembly-orientedproduct design and the interactionsbetweenplant structure andproduct
structure• Joiningandhandling• Automation of assembly processes (manual, hybrid, automated workstations; feeding
technology;industrialrobots;grippingtechnology)• Evaluationoftheassemblywithregardtoeconomiccriteria
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Modulename InternalCombustionEnginesIModulenameGER VerbrennungsmotorenIResponsiblelecturer Dinkelacker Semester WiSeInstitute InstituteforTechnicalCombustion ETCS 5Moduledescription
Themoduleteachesthebasicsofthestructure,functionandcalculationofthecombustionengine.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Explainindetailhowgasolineanddieselengineswork• Calculateanenginethermodynamicallyandmechanically• Explaingasolineanddieselenginecombustionprocessesinordertocharacterizethemindetail
Contents:• Socialintegrationofcombustionengines• Designstructure• Circularprocesses• Fundamentalsofcombustion• Gasolineanddieselengines• Enginemaps• Pollutants• Exhaustgastreatment• Alternativedriveconcepts
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Modulename Knowledge-BasedCADModulenameGER WissensbasiertesCADResponsiblelecturer Lachmayer,Gembarski Semester SoSeInstitute InstituteofProductDevelopment ETCS 5ModuledescriptionBuildingonthecoursesondesigntheoryandcomputer-aideddesign,thecourseteachesknowledge-basedCADtechniquesandtoolsforautomatingdesigntasksandproductconfiguration.ItisaimedatadvancedBachelorstudentswhowouldliketogettoknowthefullrangeoffunctionsofmodernCADtoolsandwouldliketoworkinamoreproject-orientedway.Thestudents:
• LearnthetoolstoimplementdesignknowledgeintoCADmodels• CreatemodelsofindividualpartsandassembliesinAutodeskInventorthatadaptthemselvesto
changingrequirements• Workinteamstoautomatedesigntasks• Train project-oriented work and learn the personal skills to successfully complete a Flipped
ClassroomeventModulecontents:
• Courseconcept,self-organizationinFlippedClassroom• Typesofknowledgeandknowledgemodelling• Codingofspecialistknowledgeinknowledge-basedsystemsandinCAD• Processmodelsforthedevelopmentofknowledge-basedsystems• Codingofcontrolknowledgeinknowledge-basedsystemsandinCAD• Knowledge-baseddesignsystemsindevelopmentenvironments• Solutionspacemanagementbymeansofknowledge-basedCAD• Generativedesign
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Modulename MachineToolsIModulenameGER WerkzeugmaschinenIResponsiblelecturer Denkena Semester WiSeInstitute InstituteofProductionEngineeringandMachineTools ETCS 5ModuledescriptionQualification goals: The module imparts basic knowledge about the structure and functionality ofmachine tools as well as application-oriented methods for technical and economic evaluation. Aftersuccessfulcompletionofthemodule,studentscan:
• Differentiatemachinetoolsaccordingtotheirdesignanddegreeofautomationandclassifytheminthetechnicalandeconomicenvironment
• Assignfunctioncarriersorassembliestothedifferentfunctionsofamachinetool• Evaluatetheeconomicefficiencyofmachinetoolswithinvestmentandcostaccountingmethods• Evaluate the technical properties of machine tools using analytical calculations and suitable
replacementmodels• Representthehardwarestructureforthenumericalcontrolofmachinetools• interpretsimpleprogramsfornumericalmachinecontrols
Content:• Racks• Dynamicbehaviour• Linearguides• Feeddrives• Measuringsystems• Controls• Hydraulicsystem
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Modulename ManagementofIndustrialEnterprisesModulenameGER BetriebsführungResponsiblelecturer Nyhuis,Hübner Semester SoSeInstitute InstituteofProductionSystemsandLogistics ETCS 5Moduledescription
Operationalmanagement refers to themanagementofprocesses inproductioncompanies. Fromanengineeringpointofview,thelecture"Management"teachesstudentsthebasicsbasedontheprocesschain (planning, procurement, production, distribution). The contents are taught in lectures,demonstratedwithtypicalexamplesandexercisesanddeepenedinpracticalguestlectures.Inadditiontoageneralintroductiontooperationalmanagement,thecourseincludesthebasicsofproduct,workand production structure planning, production planning and control, supply chain management,procurementanddistribution.
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Modulename MechatronicSystemsModulenameGER MechatronischeSystemeResponsiblelecturer Ortmaier Semester WiSeInstitute InstituteofMechatronicSystems ETCS 5Moduledescription
Qualification goals: Themodule provides a basic, generally valid understanding of the analysis andhandlingofmechatronicsystems.Aftersuccessfulcompletionofthemodule,thestudentsareable:
• Explainthestructureofmechatronicsystemsandtheworkingprinciplesoftheactuators,sensorsandprocesscomputersusedinmechatronicsystems
• Describeandanalysethedynamicbehaviourofmechatronicsystemsinthetimeandfrequencydomain
• Investigateandevaluatethestabilityofdynamicsystems• Explainmodel-basedmethods for the sensorlessdeterminationofdynamicquantities and to
designanobserver-supportedstatecontrolbasedonthem• Implementandtoapplythemediatedproceduresandmethodswithpractice-relevantexamples
Contents:• Introductiontothebasicconceptsofmechatronicsystems• Actuators:Activeprinciplesofelectromagneticactuators,electricservodrive,micro-actuators• Sensors:Functionality,classification,characteristics,degreeofintegration,sensorprinciples• Bussystemsanddataprocessing,microcomputers,interfaces• Basicsofmodeling,LaplaceandFouriertransform,discretizationandZ-transformation• Fundamentalsofcontrol:stabilityofdynamicsystems,standardcontrollers• Observer-supportedstatecontrol,structurecriteria,Kalmanfilter
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Modulename MetalForming-FormingMachinesModulenameGER Umformtechnik-MaschinenResponsiblelecturer Behrens Semester SoSeInstitute InstituteofFormingTechnologyandMachines ETCS 5Moduledescription
In thismodule, students learnabout the special challenges facingmachine technology in the fieldofformingtechnology.Qualificationgoals:The students learn about different types of drives for presses and peripheral equipment, racks andguideways. They can explain auxiliary units such as slide weight compensation, various overloadprotectionsandmasscompensation.Studentswillbeabletoassignprocessestomachinesbasedontheirpowerandenergyrequirements.Fortheproductionconditionsresultingfromthetoolconcept,thestudentscandemonstrateanddesigna suitablematerial transport into themachine or between the forming stages. Theywill be able topenetratethepropertiesofformingmachinesexperimentallyandtheoretically.Content:Theywilllearnabouttheactionprocesses,constructionanddrivetypes,applicationareasandboundaryconditionswhenusingmachinesandancillaryequipmentforthenon-cuttingproductionofmetalpartsonthebasisofsemi-finishedsheetmetalproducts(sheetmetalforming),butalsofromsolidblanks(solidforming).Inadditiontotheallocationofprocessestomachinesonthebasisofthedemandforforceandforming work, the topics of drive technology, frame and guide designs, inertial forces, overloadprotection,parttransport,feedsaswellasstaticanddynamicpropertiesofpressesarecovered.
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Modulename MetrologyIIModulenameGER MesstechnikIIResponsiblelecturer Kästner Semester WiSeInstitute InstituteofMeasurementandAutomaticControl ETCS 5Moduledescription Moduledescription
Thecoreofthelectureistheacquisitionanddiscretizationofmeasuredvariablesintechnicalsystemsandtheirprocessingindigitalcomputers.First,thebasicsofdiscretizationandquantificationofanalogmeasurementsignalswillbediscussed.BasedontheFouriertransformationofcontinuousanddiscretesignals,thesamplingtheoremaccordingtoShannonandtheconceptofaliasingwillbediscussed.Afurtherfocusisonmethodsforthedigitalfilteringofsignalsequencesandtheapplicationofwindowtechniques.Finally,differentmethodsforthecorrelationofmeasurementsignalsandfortheestimationofpowerdensityspectraarediscussed.
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Modulename MultibodySystemsModulenameGER MehrkörpersystemeResponsiblelecturer Panning-vonScheidt Semester WiSeInstitute InstituteofDynamicsandVibrationResearch ETCS 5ModuledescriptionQualification goals:Themodule imparts knowledgeon kinematic and kinetic relationships of spatialmultibodysystemsaswellasonthederivationofequationsofmotion.Aftersuccessfulcompletionofthemodule,thestudentsareable:
• Analyzethekinematicsofplaneandspatialsystems• Determinecorrelationsbetweenposition,velocityandaccelerationvalues• Forcedconditions(holonomeandnon-holonome)toformulate• Performcoordinatetransformations• Derive equations of motion with the help of impulse and momentum theorem as well as
Lagrangianequations1• Formalismsformulti-bodysystems
Contents:• Vectors,tensors,matrices• Coordinatesystems,coordinates,transformations,rotationmatrices• Constraints(rheonomic,scleronomic,holonomic,non-holonomic)• Position,velocityandaccelerationvariables• Euler'sdifferentiationrule• Planeandspatialmovement• KinematicsofFMDKineticenergy• Inertialcharacteristicsofrigidbodies• Centerofgravityandtwisttheorem• Differentialandintegralprinciples:Principleofvitrualwork,principleofd'Alembert,Jourdain,
Gauss,Hamilton• CalculusofVariations• Newton-Eulerequationsformultibodysystems• Lagrangianequations1and2kind• Equationsofmotionformulti-bodysystems,linearization,gyroeffect,stability
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Modulename NonlinearVibrationsModulenameGER NichtlineareSchwingungenResponsiblelecturer Panning-vonScheidt Semester SoSeInstitute InstituteofDynamicsandVibrationResearch ETCS 5Moduledescription
Themoduleconveysknowledgeaboutnonlinearoscillations,theircausesandpeculiarities,abouttheirmathematicaldescriptionaswellasaboutsolutionmethodsfornonlineardifferentialequations.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Explaincausesandphysicalcorrelationsfornonlineareffects• Classifyoscillations• Formulate basic equations for free, self-excited, parameter excited and externally excited
nonlinearsystems• Applydifferentmethodsfortheapproximatesolutionofnonlineardifferentialequations• Interpretapproximatesolutions
Contents:• Overviewofnonlinearoscillations:Phenomenaandclassification• Free,self-excited,parameterexcitedandexternallyexcitednonlinearoscillations• Methodofsmalloscillations• Harmonicbalance• Methodofslowlychangingamplitudeandphase• Faultcalculation• Chaoticmovements
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Modulename PowerTrainTechnologyModulenameGER FahrzeugantriebstechnikResponsiblelecturer Dinkelacker,Poll Semester SoSeInstitute InstituteofMachineDesignandTribology ETCS 5ModuledescriptionQualificationgoals:Thelectureiscomplementarytothelecture"GrundlagenderVehicletechnology"meansbasicknowledgeofthedrivetrainsoflandvehicles.Drivetrainsintheautomotive,constructionmachineryandrailvehiclesectorsarecovered.Aftersuccessfulcompletionofthelecture,thestudentsareable:
• Explainthefunctionandconstructiveimplementationofcombustionandelectricmotordrivesinmoredetail
• Identifyanddescribetheindividualcomponentsofdifferentdrivetrainsfromtheenginetothewheel
• Sketch the functionality of different clutch designs in the drive train of land vehicles and toillustratetheirfunctionality
• Correctly classify topology variants, designs and constructive implementation of differenttransmissionconcepts
• Explain indetail the functionofdifferentdesignsof shift actuatorsand shiftelements in thetransmission
• Nametasksofthevariouscomponentsfromdifferentdrivetrainsandtoidentifytheirmodeofoperation
Contents:• Internalcombustionengines• Electricmotors• Basics• Powertrain• Clutches• Vehicletransmissions• Synchronizersandbearings• Continuouslyvariabletransmissions(CVT)• Hydrostaticdrives• Hydrodynamicconvertercomponentsofthedriveline• Hybriddrives
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Modulename QualityManagementModulenameGER QualitätsmanagementResponsiblelecturer Denkena,Keunecke Semester SoSe
InstituteInstitute of Production Engineering and MachineTools ETCS 5
Moduledescription
Themoduleconveysthebasicsandideasofmodernqualitymanagementaswellastheapplicationofqualitytoolsandmethodsforallphasesofproductmanagement.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• Explainanddifferentiatethedifferentdefinitionsofphilosophiesofqualitymanagement• Applythetoolsandmethodsofqualitymanagementinasituationalandtarget-orientedway• Anticipatechallengesresultingfromtheinteractionofdifferentdisciplinesintheapplicationof
complexqualitytoolsandmethods• Developbasicconceptsforqualitymanagementsystemsandtoevaluatethemonthebasisof
theunderlyingstandards• Estimatetheeffectsofinadequatequalityinproductionplants• Classifytheinfluenceofaspectssuchastime,costsandlaw
Thefollowingcontentsaredealtwith:• Historyofqualitymanagement• Statisticalbasisforqualitymanagement• Tools(Q7,K7,M7)andmethods(e.g.QFD,FMEA,SPC,DoE)ofqualitymanagement• QMsystemsaccordingtoDINENISO9000ff• TotalQualityManagement(TQM)-QualityandLaw
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Modulename RefrigerationcyclesandheatpumpsModulenameGER KälteanlagenundWärmepumpenResponsiblelecturer Kabelac Semester WiSeInstitute InstituteforThermodynamics ETCS 5Moduledescription
Themoduleimpartsknowledgeofcyclicprocessesforcontinuousrefrigerationandheattransformation.Startingfromthermodynamicbasics,differentprocessesforrefrigerationarepresentedandexplainedindetail.Aftersuccessfulcompletionofthemodule,thestudentswillbeableto:
• thestructureandthefunctionofdifferentmachinesfortherefrigerationgeneration• Describethecycleprocessesoftherefrigerationmachinespresented• toreflectthesystemcomponentsofthechillersandtheirinteraction• toclassifytheenvironmentalrelevanceofdifferentrefrigerants
Modulecontents:• Processesforrefrigeration,cyclicprocesses• Vapourcompressionandabsorptionchiller• Refrigerantsandoils• Compressorsandevaporators• Heatpumps• Cryogenictechnology
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Modulename TransportTechnologyModulenameGER TransporttechnikResponsiblelecturer Overmeyer,Stock Semester WiSeInstitute InstituteofTransportandAutomationTechnology ETCS 5Moduledescription
Duringthislecturethestudentswereintroducedtothebasictransportsystems.Participantsofthislecturelearnedhowcranes,continuousconveyors,industrialtrucksandcommercialvehicles(trucks,constructionmachines,trains,ships,airplanes)work.Intheareaofinclinedconveyors,thepropertiesoftheconveyorbeltswereintensivelypresentedtothestudents.Theyalsolearnedaboutlarge-scaletechnicalsolutionconceptsusingexamplesfromtheminingindustry.Content:
• Hoistsandcranes.• Continuousconveyors.• Conveyorbelts.• IndustrialconveyorsForklifttrucks,tractors,trucks.• Roadvehicles:excavators,trucks,railvehicles,maritime,aeronautical,aerospace.
Application:Mining
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Modulename VehicleService:VehicleDiagnosticsTechnologyModulenameGER Fahrzeugservice:FahrzeugdiagnosetechnikResponsiblelecturer Becker Semester SoSeInstitute InstituteofVocationalSciencesinMetalsTechnology ETCS 5ModuledescriptionQualification goals: Students can identify, select and structure diagnostic procedures for differentdiagnosticproblems.Theyareabletodescribediagnosticprocessesanddefinemonitoringtasksinthevehicle(OBD).Theyusediagnosticsystemsandcantracediagnosticproceduresbacktotheunderlyingtechnicalprocedures.Youarefamiliarwithexpertsystemstrategiesforoff-boarddiagnosticsandareinapositiontodefineappropriatetodevelopproblem-solvingstrategies.Contents:
• Vehiclediagnosisasanoccupationalfieldofactivityinvehicletechnologyoccupations• Diagnosticsandtroubleshooting• Diagnosticprocessesandprocedures• On-offboarddiagnosis• OBDandmonitoringfunctions• Influenceoflegislation,standardsandprotocolsondiagnostics• Theroleofmeasurementtechnologyindiagnostics• Expertsystemsfordiagnostics• Formalizeddiagnosticproceduresandproblem-solvingstrategies• Techniques for routine diagnostics, Integrated diagnostics, rule-based diagnostics and
experience-baseddiagnostics• Diagnosticsonnetworkedsystems• Useofdiagnosticsystemsonthevehicle
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