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IAM - Reliability and Microstructure
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Mechanics of materials - Peter Gumbsch
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Mechanics of materials - Peter Gumbsch
Mechanics of materials - Peter Gumbsch
Microplasticity
Microtribology
Scale bridging computational methods
Cluster of Excellence 3DMM2O
GRK 2078: CoDiCoFRP
GRK 2450: CompNano
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Applied Nanotribology - Martin Dienwiebel
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Applied Nanotribology - Martin Dienwiebel
Applied Nanotribology - Martin Dienwiebel
UHV Mikrotribologie
SPP2074
SPP2402 : Greybox-Modelle zur Qualifizierung beschichteter Werkzeuge
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Additively manufactured components and microstructure design - Christian Greiner
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Additively manufactured components and microstructure design - Christian Greiner
Additively manufactured components and microstructure design - Christian Greiner
Materials Tribology
Additive Manufacturing
Verknüpfte tribologische Daten
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Bachelor/ Master Theses
Bachelor/ Master Theses
AG Gumbsch & Dienwiebel
AG Nestler
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IAM - Reliability and Microstructure
Startpage
Academics
Bachelor/ Master Theses
Willkommen am IAM-ZM
About
Personen
Research
Academics
Current
Contact
Academics
Lectures and Courses
Bachelor/ Master Theses
Description of the focus
Exam announcements
Bachelor/ Master Theses
AG Gumbsch & Dienwiebel
AG Nestler
Berechnungskonzept zum Festigkeitsnachweis unter Wasserstoffatmosphäre
Type:
Masterarbeit
Supervisor:
Dr. Sascha Fliegener
Zusatzfeld:
detaillierte Informationen