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Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Standard

Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies. / Esterl, Fabian; Nienaber, Maria; Bohlen, Jan et al.

Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024): March 11–14 2024, Kyoto, Japan. Hrsg. / Motoki Terano; Ryo Matsumoto. Japan Society for Technology of Plasticity, 2024. S. 29-30.

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Harvard

Esterl, F, Nienaber, M, Bohlen, J & Ben Khalifa, N 2024, Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies. in M Terano & R Matsumoto (Hrsg.), Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024): March 11–14 2024, Kyoto, Japan. Japan Society for Technology of Plasticity, S. 29-30.

APA

Esterl, F., Nienaber, M., Bohlen, J., & Ben Khalifa, N. (2024). Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies. in M. Terano, & R. Matsumoto (Hrsg.), Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024): March 11–14 2024, Kyoto, Japan (S. 29-30). Japan Society for Technology of Plasticity.

Vancouver

Esterl F, Nienaber M, Bohlen J, Ben Khalifa N. Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies. in Terano M, Matsumoto R, Hrsg., Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024): March 11–14 2024, Kyoto, Japan. Japan Society for Technology of Plasticity. 2024. S. 29-30

Bibtex

@inbook{a3039fc87a3a454eb2981c7f863fd4f0,
title = "Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies",
abstract = "Extrusion of lightweight materials such as aluminum and magnesium often generates anisotropic material properties within the extrudates. The material flow is a key characteristic that influences the material properties during extrusion. In this project, the ability to reduce the anisotropy by utilizing additively manufactured dies is investigated.",
keywords = "Engineering",
author = "Fabian Esterl and Maria Nienaber and Jan Bohlen and {Ben Khalifa}, Noomane",
year = "2024",
language = "English",
pages = "29--30",
editor = "Motoki Terano and Ryo Matsumoto",
booktitle = "Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024)",
publisher = "Japan Society for Technology of Plasticity",
address = "Japan",

}

RIS

TY - CHAP

T1 - Reduction of Anisotropic Mechanical Properties During Extrusion by Means of Additively Manufactured Dies

AU - Esterl, Fabian

AU - Nienaber, Maria

AU - Bohlen, Jan

AU - Ben Khalifa, Noomane

PY - 2024

Y1 - 2024

N2 - Extrusion of lightweight materials such as aluminum and magnesium often generates anisotropic material properties within the extrudates. The material flow is a key characteristic that influences the material properties during extrusion. In this project, the ability to reduce the anisotropy by utilizing additively manufactured dies is investigated.

AB - Extrusion of lightweight materials such as aluminum and magnesium often generates anisotropic material properties within the extrudates. The material flow is a key characteristic that influences the material properties during extrusion. In this project, the ability to reduce the anisotropy by utilizing additively manufactured dies is investigated.

KW - Engineering

UR - http://www.jstp-ispf.com/

M3 - Article in conference proceedings

SP - 29

EP - 30

BT - Extended Abstract Book of the 9th JSTP International Seminar on Precision Forging (ISPF 2024)

A2 - Terano, Motoki

A2 - Matsumoto, Ryo

PB - Japan Society for Technology of Plasticity

ER -

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