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Full-field Strain Measurements for Microstructurally Small Fatigue Crack Propagation Using Digital Image Correlation Method
Published on: January 16, 2019
Time Evolution and Spatial Hierarchy of Crack Patterns.
1Chemistry and Physics of Materials Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Jakkur, Bengaluru 560064, India.
Crack patterns in drying colloidal systems show predictable scaling laws. The study reveals that crack area and width increase linearly with time, allowing for age and authenticity determination in various materials.
Area of Science:
- Materials Science
- Physics
- Geology
Background:
- Desiccation cracks are common in natural and manmade colloidal systems.
- Crack patterns exhibit similar features across different length and time scales.
Purpose of the Study:
- To investigate general scaling laws in crack formation during colloidal system desiccation.
- To analyze the time evolution of crack pattern parameters.
Main Methods:
- Utilized a common colloidal dispersion under optimized conditions to form polygonal crack networks.
- Studied the time evolution of crack area, length, and width.
- Developed a recursive model incorporating crack angles.
Main Results:
- Crack area and width increase nearly linearly with time, with slope changes indicating crack generation.
- Normalized crack evolution trends overlap for different film thicknesses, except for unconnected cracks.
- The recursive model can identify crack segment hierarchies.
Conclusions:
- Crack formation in colloidal systems follows predictable time evolution based on width filtering.
- The developed approach can aid in dating old paintings and understanding geological stress profiles.

