Surface Characterization Series: Instrumented Indentation Testing
This educational webinar focuses on instrumented indentation testing, a characterization technique, assessing a material’s mechanical properties at micro- and nanoscale levels.
Why Attend?
Explore how instrumented indentation enables accurate and repeatable measurements of mechanical properties (hardness, elastic modulus, creep behavior), with applications in industries including materials research, mechanical engineering, biomaterials, and nanotechnology.
Discover how indentation data can drive the development of innovative and high-performance materials.
Who Should Attend?
Researchers, scientists, engineers, and professionals actively engaged in materials science, mechanical engineering, biomaterials, nanotechnology, and related fields.
Key Takeaways
- Discover how instrumented indentation enables accurate and repeatable measurements of critical mechanical properties
- Understand the significance of hardness, elastic modulus, and creep behavior in assessing material performance and quality
- Learn about innovative approaches, the latest equipment, and advanced data analysis methods that improve accuracy and reliability in surface characterization
- Learn best practices for instrumented indentation testing, from sample preparation to data interpretation
Mark R Haase is an Advanced Application Scientist at Anton Paar. During their seven years here, they have supported many materials characterization techniques, including Indentation, Scratch, Particle Characterization, Gas Sorption, and several forms of microscopy. Prior to joining Anton Paar, Mark modeled and characterized green energy systems and nanocarbon materials.
Získejte volný přístup!
Vyplňte níže uvedený formulář pro získání volného přístupu k nástrojům a k obsahu na vyžádání.
