Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability

Luke Mosse; Paul Compston; Wesley J. Cantwell; Michael Cardew-Hall; Shankar Kalyanasundaram

doi:10.1016/j.jmatprotec.2005.09.002

Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability

Luke Mosse^*, Paul Compston, Wesley J. Cantwell, Michael Cardew-Hall, Shankar Kalyanasundaram

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

96 Citations (Scopus)

Abstract

In stamp forming of sheet materials, the quality of the part and the robustness of the process are determined by a number of variables. This study looks at the application of the stamping process to a fibre-metal laminate (FML) material system and the effect of the blankholder force, punch feed rate and tool radius on the quality of a channel formed laminate. The results indicate that increasing feed rate reduces shape error and delamination significantly and reduces the variation between repetitions of the same test. Furthermore, analysis of the bend radii reveals that the normalised deviation in bend radius from the tool radius is constant for the range of radii investigated. This suggests that FML materials can possess superior formability characteristics compared to monolithic aluminium.

Original language	English
Pages (from-to)	163-168
Number of pages	6
Journal	Journal of Materials Processing Technology
Volume	172
Issue number	2
DOIs	https://doi.org/10.1016/j.jmatprotec.2005.09.002
Publication status	Published - 28 Feb 2006

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10.1016/j.jmatprotec.2005.09.002

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title = "Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability",

abstract = "In stamp forming of sheet materials, the quality of the part and the robustness of the process are determined by a number of variables. This study looks at the application of the stamping process to a fibre-metal laminate (FML) material system and the effect of the blankholder force, punch feed rate and tool radius on the quality of a channel formed laminate. The results indicate that increasing feed rate reduces shape error and delamination significantly and reduces the variation between repetitions of the same test. Furthermore, analysis of the bend radii reveals that the normalised deviation in bend radius from the tool radius is constant for the range of radii investigated. This suggests that FML materials can possess superior formability characteristics compared to monolithic aluminium.",

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T1 - Stamp forming of polypropylene based fibre-metal laminates

T2 - The effect of process variables on formability

AU - Mosse, Luke

AU - Compston, Paul

AU - Cantwell, Wesley J.

AU - Cardew-Hall, Michael

AU - Kalyanasundaram, Shankar

PY - 2006/2/28

Y1 - 2006/2/28

N2 - In stamp forming of sheet materials, the quality of the part and the robustness of the process are determined by a number of variables. This study looks at the application of the stamping process to a fibre-metal laminate (FML) material system and the effect of the blankholder force, punch feed rate and tool radius on the quality of a channel formed laminate. The results indicate that increasing feed rate reduces shape error and delamination significantly and reduces the variation between repetitions of the same test. Furthermore, analysis of the bend radii reveals that the normalised deviation in bend radius from the tool radius is constant for the range of radii investigated. This suggests that FML materials can possess superior formability characteristics compared to monolithic aluminium.

AB - In stamp forming of sheet materials, the quality of the part and the robustness of the process are determined by a number of variables. This study looks at the application of the stamping process to a fibre-metal laminate (FML) material system and the effect of the blankholder force, punch feed rate and tool radius on the quality of a channel formed laminate. The results indicate that increasing feed rate reduces shape error and delamination significantly and reduces the variation between repetitions of the same test. Furthermore, analysis of the bend radii reveals that the normalised deviation in bend radius from the tool radius is constant for the range of radii investigated. This suggests that FML materials can possess superior formability characteristics compared to monolithic aluminium.

KW - Delamination

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KW - Laminates

KW - Thermoplastic resin

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JO - Journal of Materials Processing Technology

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Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability

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