20240035941. METHOD AND DEVICE FOR DETERMINING, IN PARTICULAR, MICROMECHANICAL PROPERTIES OF A MATERIAL, IN PARTICULAR, FOR DESCRIBING GRAIN SIZE DEPENDENCIES simplified abstract (Robert Bosch GmbH)
METHOD AND DEVICE FOR DETERMINING, IN PARTICULAR, MICROMECHANICAL PROPERTIES OF A MATERIAL, IN PARTICULAR, FOR DESCRIBING GRAIN SIZE DEPENDENCIES
Organization Name
Inventor(s)
Erik Natkowski of Korntal-Muenchingen (DE)
Petra Sonnweber-ribic of Leonberg (DE)
Jannick Kuhn of Karlsruhe (DE)
METHOD AND DEVICE FOR DETERMINING, IN PARTICULAR, MICROMECHANICAL PROPERTIES OF A MATERIAL, IN PARTICULAR, FOR DESCRIBING GRAIN SIZE DEPENDENCIES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240035941 titled 'METHOD AND DEVICE FOR DETERMINING, IN PARTICULAR, MICROMECHANICAL PROPERTIES OF A MATERIAL, IN PARTICULAR, FOR DESCRIBING GRAIN SIZE DEPENDENCIES
Simplified Explanation
The patent application describes a device and method for determining a micromechanical property of a material, specifically focusing on grain size dependencies. The method involves predefining a grain size-independent parameter and determining a grain size-dependent parameter as a function of the grain size-independent parameter. The property of the material is then determined as a function of both the grain size-independent parameter and the grain size-dependent parameter.
- The patent/application focuses on determining a micromechanical property of a material, specifically considering grain size dependencies.
- It involves predefining a grain size-independent parameter.
- A grain size-dependent parameter is determined as a function of the grain size-independent parameter.
- The property of the material is determined as a function of both the grain size-independent parameter and the grain size-dependent parameter.
Potential Applications:
- Material science research and development
- Manufacturing processes optimization
- Quality control in material production
Problems Solved:
- Provides a method to determine micromechanical properties of materials, specifically considering grain size dependencies.
- Offers a way to quantify the influence of grain size on material properties.
- Enables better understanding and control of material behavior.
Benefits:
- Allows for more accurate characterization of materials.
- Provides insights into the relationship between grain size and material properties.
- Enables optimization of material properties for specific applications.
Original Abstract Submitted
a device and computer-implemented method for determining an, in particular, micromechanical property of a material, in particular, for describing grain size dependencies, wherein a grain size-independent parameter is predefined (), a grain size-dependent parameter being determined () as a function of the grain size-independent parameter, and the property of the material being determined () as a function of the grain size-independent parameter and of the grain size-dependent parameter.