Microstructure-informed design approach is set to revolutionize the design of metals and alloy components for aerospace applications. In this approach, a designer utilizes the influence of individual microstructural features on microscopic deformation to yield desirable macroscopic properties. Therefore, the development of advanced experimental capabilities that enable detailed characterization of microscopic deformation of material test specimens is critical to realize this paradigm shift in practice. However, extracting the complex characteristics of microscopic deformation hidden in raw image data is quite challenging. In this article, we propose an automated data extraction and analysis method based on instance segmentation and tracking...
Quantitative analysis through image processing is a key step to gain information regarding the micro...
Instrumented indentation has been developed and widely utilized as one of the most versatile and pra...
Data-driven approaches enable a deep understanding of microstructure and mechanical properties of ma...
In recent years, state-of-the-art micromechanical systems have given researchers the ability to obse...
The inner structure of a material is called microstructure. It stores the genesis of a material and ...
The inner structure of a material is called microstructure. It stores the genesis of a material and ...
This work focuses on integrating crystal plasticity based deformation models and machine learning te...
Four-dimensional quantitative characterization of heterogeneous materials using in situ synchrotron ...
Nickel-based superalloys have a wide range of applications in high temperature and stress domains du...
Martensite banding in dual phase steels is an important research topic in the field of materials des...
The occurrence of microstructural damage in the form of deformation-induced voids affects the proper...
Four-dimensional quantitative characterization of heterogeneous materials using in situ synchrotron ...
In order to understand how changes to a material at the atomic and nano-scales impact the way a mate...
A novel method to predict the mechanical responses of arbitrary microstructures from the deep learni...
Microstructures in steel can be understood as hierarchical structures holding information on various...
Quantitative analysis through image processing is a key step to gain information regarding the micro...
Instrumented indentation has been developed and widely utilized as one of the most versatile and pra...
Data-driven approaches enable a deep understanding of microstructure and mechanical properties of ma...
In recent years, state-of-the-art micromechanical systems have given researchers the ability to obse...
The inner structure of a material is called microstructure. It stores the genesis of a material and ...
The inner structure of a material is called microstructure. It stores the genesis of a material and ...
This work focuses on integrating crystal plasticity based deformation models and machine learning te...
Four-dimensional quantitative characterization of heterogeneous materials using in situ synchrotron ...
Nickel-based superalloys have a wide range of applications in high temperature and stress domains du...
Martensite banding in dual phase steels is an important research topic in the field of materials des...
The occurrence of microstructural damage in the form of deformation-induced voids affects the proper...
Four-dimensional quantitative characterization of heterogeneous materials using in situ synchrotron ...
In order to understand how changes to a material at the atomic and nano-scales impact the way a mate...
A novel method to predict the mechanical responses of arbitrary microstructures from the deep learni...
Microstructures in steel can be understood as hierarchical structures holding information on various...
Quantitative analysis through image processing is a key step to gain information regarding the micro...
Instrumented indentation has been developed and widely utilized as one of the most versatile and pra...
Data-driven approaches enable a deep understanding of microstructure and mechanical properties of ma...