Papers

Topics

Authors

Recent

View all

Detailed Answer

Quick Answer

Concise responses based on abstracts only

Detailed Answer

Well-researched responses based on abstracts and relevant paper content.

Custom Instructions Pro

Preferences or requirements that you'd like Emergent Mind to consider when generating responses

Gemini 2.5 Flash

Gemini 2.5 Flash 47 tok/s

Gemini 2.5 Pro 44 tok/s Pro

GPT-5 Medium 13 tok/s Pro

GPT-5 High 12 tok/s Pro

GPT-4o 64 tok/s Pro

Kimi K2 160 tok/s Pro

GPT OSS 120B 452 tok/s Pro

Claude Sonnet 4 36 tok/s Pro

2000 character limit reached

A Machine Learning Model for Predicting Progressive Crack Extension based on DCPD Fatigue Data (2111.08841v1)

Published 16 Nov 2021 in physics.app-ph and physics.ins-det

Abstract: Time history data collected from a Direct Current Potential Drop (DCPD) fatigue experiment at a range of temperatures was used to train a Bidirectional Long-Short Term Memory Neural Network (BiLSTM) model. The model was trained on high sampling rate experimental data from crack initiation up through the Paris regime. The BiLSTM model was able to predict the progressive crack extension at intermediate temperatures and stress intensities. The model was able to reproduce crack jumps and overall crack progression. The BiLSTM model demonstrated the potential to be used as a tool for future investigation into fundamental mechanisms such as high-temperature oxidation and new damage models.