Litcius/Paper detail

Spot-checking machine learning algorithms for tool wear monitoring in automatic drilling operations in CFRP/Ti6Al4V/Al stacks in the aircraft industry

C. Domínguez-Monferrer, A. Ramajo-Ballester, José María Armingol, J.L. Cantero

2024Journal of Manufacturing Systems25 citationsDOIOpen Access PDF

Abstract

In aircraft manufacturing, where diverse materials, including Carbon Fiber-Reinforced Plastics (CFRP), aluminum, and titanium alloys, are employed, the assembly process heavily relies on creating thousands of holes. These holes accommodate bolts and rivets, facilitating the secure interlocking of structural components within the aircraft fuselage. The proliferation of sensor systems in this domain has led to a substantial increase in data generation during the hole-making process, offering a compelling opportunity to optimize the production system. In this context, this article is dedicated to harnessing the data collected from the production system of a commercial aircraft to refine the assembly process, with a specific focus on reducing consumable costs. The primary approach involves developing a real-time Tool Wear Monitoring System by comparing the performance of Linear Regression, Lasso Regression, Ridge Regression, k-Nearest Neighbors, Support Vector Regression, Decision Tree, Random Forest, and Extreme Gradient Boosting Machine Learning models. Using a scale of the general drill condition as an outcome, the Gradient Boosting Regressor has shown outstanding results. Notably, the residuals consistently exhibited zero-centered errors in training and test sets. However, it suggests that further enhancements are needed to surpass human-level performance in predicting tool conditions because of the quality and quantity of available data. • A novel tool wear monitoring approach in drilling is proposed, using spindle motor power consumption as the key indicator. • A drill deterioration state scale is defined, assessing wear types, factoring in size, extent, and location from real data. • An exploration of supervised models is conducted to find the best approaches for real-time tool wear monitoring.

Topics & Concepts

DrillingEngineeringMachiningTitanium alloyAlgorithmMechanical engineeringComputer scienceMetallurgyMaterials scienceAlloyAdvanced machining processes and optimizationEngineering Technology and MethodologiesAdvanced Machining and Optimization Techniques