Your search keyword '"Moufki, Abdelhadi"' showing total 3 results

1. Integrated production-maintenance strategy considering energy consumption and recycling constraints in dry machining

Author

Guendouli, El Mehdi, Mifdal, Lahcen, Dellagi, Sofiene, Kibbou, El Mehdi, and Moufki, Abdelhadi

Published

2024

2. Economic Production Strategy Considering Energy Consumption and Recycling Constraints in Dry Machining.

Author

Guendouli, El Mehdi, Dellagi, Sofiene, Mifdal, Lahcen, Kibbou, El Mehdi, and Moufki, Abdelhadi

Subjects

ENERGY consumption, RAW materials, RECYCLING & the environment, INDUSTRIAL productivity, NUMERICAL control of machine tools

Abstract

Industrial companies working to improve CNC (Computer Numerical Control) mechanical manufacturing machines face the challenge of integrating production decision aids that are adapted to the constraints associated with dry machining processes. This tool has a direct impact on productivity and the quality of the final product by helping to determine the most suitable production parameters for dry machining. The proposed study developed an economic production strategy that considers several parameters related to the production process and manufacturing system environment simultaneously. In fact, our goal is to minimize the total cost, including raw materials, production, recycling, and energy consumption costs. We consider two types of raw materials, Steel and Aluminum, and a random demand over a finite horizon dissociated into equal periods. A model has been developed to express the objective function, total cost, based on variable decisions. A numerical solving procedure and example are provided to demonstrate the model. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dry Machining Aeronautical Aluminum Alloy AA2024-T351: Analysis of Cutting Forces, Chip Segmentation and Built-Up Edge Formation.

Author

Haddag, Badis, Atlati, Samir, Nouari, Mohammed, and Moufki, Abdelhadi

Subjects

MACHINING, ALUMINUM alloys, CUTTING force, FINITE element method, DUCTILITY

Abstract

In this paper, machining aeronautical aluminum alloy AA2024-T351 in dry conditions was investigated. Cutting forces, chip segmentation, and built-up edge formation were analyzed. Machining tests revealed that the chip formation process depends on cutting conditions and tool geometry. So continuous and segmented chips are generated. Under some cutting conditions, built-up edge formation occurs. A predictive machining theory, based on a finite elements method (FEM), was applied to reproduce and explain these phenomena. Thermomechanical behaviors of the work material and the tool-work material interface were considered. Results of the proposed modelling were compared to experimental data for a wide range of cutting speed. It was shown that the feed force is well reproduced by the ALE-FE (arbitrary lagrangian-eulerian finite element) formulation and highly underestimated by the lagrangian finite element (LAG-FE) one. While, the periodic localized shear band, leading to a chip segmentation, is well reproduced with the Lagrangian FE formulation. It was found that the chip segmentation can be correlated to the cutting force evolution using the defined chip segmentation intensity parameter. For the built-up edge (BUE) phenomenon, it was shown that it depends on the contact/friction at the tool-chip interface, and this is possible to simulate by making the friction coefficient time-dependent. [ABSTRACT FROM AUTHOR]

Published

2016