Raúl Moreno scite author profile

Raúl Moreno

3Publications

20Citation Statements Received

41Citation Statements Given

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156

Affiliations

National University of Distance Education, ArcelorMittal (Spain)

Publications

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Toward quantitative fractography using convolutional neural networks

Tsopanidis

Moreno²,

Osovski

2020

Engineering Fracture Mechanics

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The science of fractography revolves around the correlation between topographic characteristics of the fracture surface and the mechanisms and external conditions leading to their creation. While being a topic of investigation for centuries, it has remained mostly qualitative to date. A quantitative analysis of fracture surfaces is of prime interest for both the scientific community and the industrial sector, bearing the potential for improved understanding on the mechanisms controlling the fracture process and at the same time assessing the reliability of computational models currently being used for material design. With new advances in the field of image analysis, and specifically with machine learning tools becoming more accessible and reliable, it is now feasible to automate the process of extracting meaningful information from fracture surface images. Here, we propose a method of identifying and quantifying the relative appearance of intergranular and transgranular fracture events from scanning electron microscope images. The newly proposed method is based on a convolutional neural network algorithm for semantic segmentation. The proposed method is extensively tested and evaluated against two ceramic material systems (Al 2 O 3 ,M gAl 2 O 4 ) and shows high prediction accuracy, despite being trained on only one material system (M gAl 2 O 4 ). While here attention is focused on brittle fracture characteristics, the method can be easily extended to account for other fracture morphologies, such as dimples, fatigue striations, etc.The fracture process of materials is governed by both extrinsic (e.g. imposed loading, environmental conditions) and intrinsic (microstructure) characteristics. One may thus expect, that the fracture surface will contain evidence regarding the influence of both the intrinsic and extrinsic characteristics of the fracture process. Fractography is a powerful tool employed to study fracture

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A tutorial on the segmentation of metallographic images: Taxonomy, new MetalDAM dataset, deep learning-based ensemble model, experimental analysis and challenges

et al. 2022

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Exploring the trade-off between performance and annotation complexity in semantic segmentation

Moreno-Salinas

Lei

Holm

et al. 2023

Engineering Applications of Artificial Intelligence

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Raúl Moreno

Toward quantitative fractography using convolutional neural networks

A tutorial on the segmentation of metallographic images: Taxonomy, new MetalDAM dataset, deep learning-based ensemble model, experimental analysis and challenges

Exploring the trade-off between performance and annotation complexity in semantic segmentation

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