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Process limits of extrusion of multimaterial components

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Standard

Process limits of extrusion of multimaterial components. / Ben Khalifa, Noomane; Foydl, Annika; Pietzka, Daniel et al.

in: Journal of Manufacturing Science and Engineering, Jahrgang 137, Nr. 5, 051001, 01.10.2015.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Ben Khalifa, N, Foydl, A, Pietzka, D & Jager, A 2015, 'Process limits of extrusion of multimaterial components', Journal of Manufacturing Science and Engineering, Jg. 137, Nr. 5, 051001. https://doi.org/10.1115/1.4031091

APA

Ben Khalifa, N., Foydl, A., Pietzka, D., & Jager, A. (2015). Process limits of extrusion of multimaterial components. Journal of Manufacturing Science and Engineering, 137(5), [051001]. https://doi.org/10.1115/1.4031091

Vancouver

Ben Khalifa N, Foydl A, Pietzka D, Jager A. Process limits of extrusion of multimaterial components. Journal of Manufacturing Science and Engineering. 2015 Okt 1;137(5):051001. doi: 10.1115/1.4031091

Bibtex

@article{b006ab895cd748a29078fb34f60b88bd,
title = "Process limits of extrusion of multimaterial components",
abstract = "Three innovative extrusion processes for manufacturing of multimaterial parts are discussed: co-extrusion of discontinuously steel reinforced aluminum profiles, composite extrusion of continuously steel wire reinforced profiles, and composite rod extrusion. In the first two processes, the embedded steel elements are not deformable; while in the case of composite rod extrusion, both materials are deformed. By means of experimental and numerical analyses, the process parameters that mainly influence the reinforcement ratio, the extrusion force as well as the material distribution are analyzed. On the basis of the above, the analytical approaches are deduced to describe the process limits for the proposed technologies. The paper closes with examples of applications regarding the lightweight requirements as well as functional integrations by forming multimaterials.",
keywords = "Engineering",
author = "{Ben Khalifa}, Noomane and Annika Foydl and Daniel Pietzka and Andreas Jager",
note = "Paper No: MANU-14-1696",
year = "2015",
month = oct,
day = "1",
doi = "10.1115/1.4031091",
language = "English",
volume = "137",
journal = "Journal of Manufacturing Science and Engineering, Transactions of the ASME",
issn = "1087-1357",
publisher = "The American Society of Mechanical Engineers",
number = "5",

}

RIS

TY - JOUR

T1 - Process limits of extrusion of multimaterial components

AU - Ben Khalifa, Noomane

AU - Foydl, Annika

AU - Pietzka, Daniel

AU - Jager, Andreas

N1 - Paper No: MANU-14-1696

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Three innovative extrusion processes for manufacturing of multimaterial parts are discussed: co-extrusion of discontinuously steel reinforced aluminum profiles, composite extrusion of continuously steel wire reinforced profiles, and composite rod extrusion. In the first two processes, the embedded steel elements are not deformable; while in the case of composite rod extrusion, both materials are deformed. By means of experimental and numerical analyses, the process parameters that mainly influence the reinforcement ratio, the extrusion force as well as the material distribution are analyzed. On the basis of the above, the analytical approaches are deduced to describe the process limits for the proposed technologies. The paper closes with examples of applications regarding the lightweight requirements as well as functional integrations by forming multimaterials.

AB - Three innovative extrusion processes for manufacturing of multimaterial parts are discussed: co-extrusion of discontinuously steel reinforced aluminum profiles, composite extrusion of continuously steel wire reinforced profiles, and composite rod extrusion. In the first two processes, the embedded steel elements are not deformable; while in the case of composite rod extrusion, both materials are deformed. By means of experimental and numerical analyses, the process parameters that mainly influence the reinforcement ratio, the extrusion force as well as the material distribution are analyzed. On the basis of the above, the analytical approaches are deduced to describe the process limits for the proposed technologies. The paper closes with examples of applications regarding the lightweight requirements as well as functional integrations by forming multimaterials.

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=84941090682&partnerID=8YFLogxK

U2 - 10.1115/1.4031091

DO - 10.1115/1.4031091

M3 - Journal articles

AN - SCOPUS:84941090682

VL - 137

JO - Journal of Manufacturing Science and Engineering, Transactions of the ASME

JF - Journal of Manufacturing Science and Engineering, Transactions of the ASME

SN - 1087-1357

IS - 5

M1 - 051001

ER -

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