engineering mechanics group faculty of aerospace engineering minor programme 2 aerospace analysis...
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Engineering Mechanics GroupFaculty of Aerospace Engineering
Minor Programme 2Minor Programme 2
Aerospace Analysis and DevelopmentAerospace Analysis and Development
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Akke SuikerAkke Suiker
• Associate Professor and Acting Chair of Engineering MechanicsAssociate Professor and Acting Chair of Engineering Mechanics
• Lecturer of Lecturer of
• - Vibrations of Aerospace Structures (2- Vibrations of Aerospace Structures (2ndnd year) year)
• - Statics (1- Statics (1stst year) year)
• Supervisor of MSc and PhD projectsSupervisor of MSc and PhD projects
• - Strength and ductility of advanced metals- Strength and ductility of advanced metals
• - Microscale cracking in thermal barrier coating systems- Microscale cracking in thermal barrier coating systems
• - Fracture and delamination in laminates- Fracture and delamination in laminates
• Coordinator of minor 2Coordinator of minor 2
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• Prediction of fracture Prediction of fracture behaviourbehaviour
• Prediction of fracture Prediction of fracture behaviourbehaviour
• Morphing planeMorphing plane
• Prediction of fracture Prediction of fracture behaviourbehaviour
• Morphing planeMorphing plane
• Analysis of flow propertiesAnalysis of flow properties
• Prediction of fracture Prediction of fracture behaviourbehaviour
• Morphing planeMorphing plane
• Analysis of flow propertiesAnalysis of flow properties
• Development of flight Development of flight simulatorsimulator
R&D aspects of Aerospace R&D aspects of Aerospace EngineeringEngineering
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ObjectivesObjectives
• Get in touch with formal Get in touch with formal toolstools– MethodsMethods– FormulationsFormulations– ModelsModels
• Learn how to choose the Learn how to choose the proper toolproper tool
• Awake the skills required to Awake the skills required to develop new toolsdevelop new tools
EngineeringEngineering
InnovationInnovation
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CoursesCourses
• Computational Fluid and Solid MechanicsComputational Fluid and Solid Mechanics
• Constitutive Modelling in Aerospace EngineeringConstitutive Modelling in Aerospace Engineering
• Aerospace Systems and Control TheoryAerospace Systems and Control Theory
• Modern Materials for Aerospace ApplicationsModern Materials for Aerospace Applications
• Partial Differential Equations IPartial Differential Equations I
• Systems Engineering and Technical Management Systems Engineering and Technical Management TechniquesTechniques
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• Introduction to Introduction to numerical methodsnumerical methods
• Finite differences, Finite differences, finite volumes, finite finite volumes, finite elementselements
• Time integrationTime integration
• Introduction to Introduction to numerical methodsnumerical methods
• Finite differences, Finite differences, finite volumes, finite finite volumes, finite elementselements
• Time integrationTime integration
• Analysis of flowAnalysis of flow
• Introduction to Introduction to numerical methodsnumerical methods
• Finite differences, Finite differences, finite volumes, finite finite volumes, finite elementselements
• Time integrationTime integration
• Analysis of flowAnalysis of flow
• Analysis of structuresAnalysis of structures
Computational Fluid and Solid Computational Fluid and Solid MechanicsMechanics
• Introduction to Introduction to numerical methodsnumerical methods
• Finite differences, finite Finite differences, finite volumes, finite volumes, finite elementselements
Solution of differentialequations
Solution of differentialequations
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• Basic relations Basic relations between force and between force and deformationdeformation
• Basic relations Basic relations between force and between force and deformationdeformation
• Failure of solidsFailure of solids
• Basic relations Basic relations between force and between force and deformationdeformation
• Failure of solidsFailure of solids
• Viscous flowsViscous flows
• Basic relations Basic relations between force and between force and deformationdeformation
• Failure of solidsFailure of solids
• Viscous flowsViscous flows
• TurbulenceTurbulence
• Basic relations Basic relations between force and between force and deformationdeformation
• Failure of solidsFailure of solids
• Viscous flowsViscous flows
• TurbulenceTurbulence
• Boundary layersBoundary layers
Constitutive modelling in Constitutive modelling in Aerospace EngineeringAerospace Engineering
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Aerospace Systems and Control Aerospace Systems and Control TheoryTheory
• Introduction to control Introduction to control theorytheory
• Description of Description of aerospace control aerospace control systemssystems
• ApplicationsApplications
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Modern Materials for Aerospace Modern Materials for Aerospace ApplicationsApplications
• Innovation in materials Innovation in materials and material and material technologytechnology
• Active participation of Active participation of students to define new students to define new developmentsdevelopments
• Possible participation Possible participation in “Young Wild Ideas in in “Young Wild Ideas in Materials” programmeMaterials” programme
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Partial Differential Equations IPartial Differential Equations I
• Solution methods for Solution methods for equations of physicsequations of physics
• Heat equationHeat equation
• Wave equationWave equation
• Boundary conditionsBoundary conditions
• Insight into the Insight into the mathematics of mathematics of boundary value boundary value problemsproblems
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Systems engineering and Systems engineering and Technical Management TechniquesTechnical Management Techniques
• Systems theorySystems theory
• Engineering project Engineering project managementmanagement
• Risk assessmentRisk assessment
• Indispensable for Indispensable for Design Synthesis Design Synthesis ExerciseExercise
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Why would you choose Minor 2?Why would you choose Minor 2?
• Why did you choose Aerospace Engineering?Why did you choose Aerospace Engineering?– Good in math and physicsGood in math and physics– Social relevanceSocial relevance– Meaningful applicationsMeaningful applications
• Interested in getting to know the driving processes?Interested in getting to know the driving processes?
• Interested in innovation rather than traditional Interested in innovation rather than traditional design?design?
Then you should choose Minor 2Then you should choose Minor 2