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Microcracking in concrete refers to the tiny cracks that can form within the material even before any external load is applied. These microcracks typically occur at the interface between the coarse aggregate and the hydrated cement paste, often as a result of differential volume changes prompted by variations in stress-strain behavior, as well as thermal and moisture movement. Initially, these microcracks remain stable and do not grow substantially until the concrete is stressed to about 30...
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Decoding soil properties from surface cracks using Minkowski functionals, junction crack angle distributions, and

Emanual Daimari1, Puppala Sai Ratna2, P V S S R Chandra Mouli2

  • 1Department of Physics, Central University of Tamil Nadu, Thiruvarur, Tamil Nadu, 610005, India.

The European Physical Journal. E, Soft Matter
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Summary
This summary is machine-generated.

Soil desiccation crack patterns reveal distinct fingerprints for different soil types. Coupling crack analysis with deep learning achieves 100% accuracy in soil classification.

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Area of Science:

  • Geosciences
  • Soil Science
  • Computational Science

Background:

  • Desiccation cracks form unique patterns influenced by soil type.
  • Previous studies noted pattern variations but lacked advanced analytical tools.
  • Physico-chemical properties of soil subclasses from different banks were similar, suggesting pattern analysis is key.

Purpose of the Study:

  • To investigate the evolution of desiccation crack patterns across various soil types and subtypes.
  • To utilize morphological descriptors and deep learning for accurate soil classification.
  • To explore applications in fields like agriculture, planetary science, and geotechnical engineering.

Main Methods:

  • Conducted desiccation crack experiments on different soil types.
  • Analyzed crack patterns using morphological descriptors (Minkowski functionals, junction crack angle distribution).
  • Trained convolutional neural network (CNN) algorithms on experimental image data (60% for training).

Main Results:

  • Distinct desiccation crack patterns and descriptors were observed for different soil types and subtypes.
  • CNN models achieved 100% prediction accuracy for both major and sub-major soil classifications.
  • Morphological descriptors proved effective as soil type fingerprints.

Conclusions:

  • Desiccation crack pattern analysis, enhanced by deep learning, offers a highly accurate method for soil classification.
  • This approach has broad applicability in diverse scientific and engineering fields.
  • The study highlights the potential of image-based soil classification using advanced computational techniques.