Development of a Laboratory-Scale Test Methodology for Performance Evaluation of Lubricants for Hot Stamping of an Aluminium Alloy

Rodríguez Leal, Bárbara; Decrozant-Triquenaux, Justine; Hardell, Jens; Pelcastre, Leonardo

doi:10.3390/lubricants11090359

Lubricants

2023

DOI: 10.3390/lubricants11090359

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Development of a Laboratory-Scale Test Methodology for Performance Evaluation of Lubricants for Hot Stamping of an Aluminium Alloy

Bárbara Rodríguez Leal,

Justine Decrozant-Triquenaux,

Jens Hardell

et al.

Abstract: In hot stamping of aluminium, the need for efficient methods to evaluate, compare, and rank lubricants based on their tribological performance is critical in the early stages of selection. Pilot and simulative testing can be costly, time-consuming, and complex, making it inefficient for initial benchmarking. This work aims to develop a test methodology to assess lubricant performance for hot stamping under key operating conditions without fully simulating the forming process. The proposed method distinguishes … Show more

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Cited by 4 publications

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Design of a test rig for the characterization of friction and wear in hot-metal gas-forming of AA 5083 aluminium sheets

Gobber,

Tancau,

Scintilla

et al. 2024

International Journal of Lightweight Materials and Manufacture

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Design of a test rig for the characterization of friction and wear in hot-metal gas-forming of AA 5083 aluminium sheets

Gobber,

Tancau,

Scintilla

et al. 2024

International Journal of Lightweight Materials and Manufacture

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Initial and grow-up stages of material transfer on Arc-DLC coating in aluminum forming processes at high temperatures

Soranansri,

Dubois,

Moreau

et al. 2024

Wear

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Numerical study on local contact conditions on rough surface under press hardening

Deng

2024

Proceedings of the Institution of Mechanical Engineers, Part B:

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The primary concern for manufacturers related to press hardening is productivity, which can deteriorate owing to wear. Severe tribological behaviours, such as abrasive and adhesive wear, lead to blank rupture, surface scratches and shape deviation of the formed parts, increasing the cost and time required for maintenance. To understand the mechanism governing tribological behaviours during consecutive stamping strokes, this study proposes a finite element (FE) simulation of the interface between the blank and tool steel. The FE simulation involves measuring the surface topography in a real stamping tool to obtain local contact conditions. The effects of the nominal pressure and range of the friction coefficient on the local contact conditions were studied. A tribological test capable of accurately reproducing the press hardening conditions was conducted to validate FE simulation. The local contact conditions in terms of contact pressure, contact area and sliding distance were found to differ from the nominal values. The proposed FE simulation involving a rough surface explores the possible length scale of the surface topography, wherein the calculated parameters are likely the main factors affecting wear. Furthermore, the correlation between the test variables and local contact conditions can help optimise the process parameters and lubricity.

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Development of a Laboratory-Scale Test Methodology for Performance Evaluation of Lubricants for Hot Stamping of an Aluminium Alloy

Cited by 4 publications

References 19 publications

Design of a test rig for the characterization of friction and wear in hot-metal gas-forming of AA 5083 aluminium sheets

Design of a test rig for the characterization of friction and wear in hot-metal gas-forming of AA 5083 aluminium sheets

Initial and grow-up stages of material transfer on Arc-DLC coating in aluminum forming processes at high temperatures

Numerical study on local contact conditions on rough surface under press hardening

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